Disclosure of Invention
In order to enable a user to comprehensively know the current project detection condition, the application provides a project construction quality acceptance supervision method, a system, a device and a storage medium.
In a first aspect, the present application provides a method for checking and supervising engineering construction quality, which adopts the following technical scheme:
a project construction quality acceptance supervision method comprises the following steps:
receiving a monitoring process updating request sent by a user through an intelligent terminal, wherein the monitoring process updating request carries monitoring process updating information used for updating a supervision node, and the monitoring process updating information comprises user identity sub-information and supervision and detection procedure sub-information corresponding to the user identity sub-information;
generating a node process monitoring record according to the monitoring process updating information;
generating a node project acceptance table according to the node process monitoring records, wherein the node project acceptance table is generated by summarizing the node process monitoring records;
and pushing the node project acceptance sheet to an intelligent terminal of a user.
Through adopting above-mentioned technical scheme, when the user carries out the stage inspection to the engineering construction, every user all sends the monitoring process and updates the request through intelligent terminal when detecting, supervisory systems receives monitoring process update message, correspond and generate node process monitoring record, collect every user to the detection data of engineering to in the node engineering acceptance table, and the node engineering acceptance table propelling movement that will collect is to every user's intelligent terminal, make the user can learn other monitoring data of current engineering through looking over the node engineering acceptance table, make the user can know the current engineering and detect the condition comprehensively.
Optionally, before the step of generating a node process monitoring record according to the monitoring process update information, the method further includes:
inquiring detection qualification information corresponding to the user identity sub-information from a preset database, wherein the user identity sub-information comprises a user ID and monitoring qualification certification data corresponding to the user ID;
and if the user identity sub-information is consistent with the detection qualification information, executing the step of updating information according to the monitoring process and generating a node process monitoring record.
By adopting the technical scheme, when a user wants to input the monitoring process updating information, the monitoring system verifies the identity of the user and judges whether the current user has monitoring authority, and if the qualification of the current user can perform monitoring operation on the engineering project, the monitoring system receives the monitoring process updating information input by the current user and arranges and generates the corresponding node process monitoring record.
Optionally, before the step of pushing the node engineering acceptance table to the intelligent terminal of the user, the method further includes:
receiving a monitoring result input request sent by a user through an intelligent terminal, wherein the monitoring result input request carries monitoring result input information for inputting a detection result, and the monitoring result input information corresponds to the sub-information of the supervision and detection procedure;
the monitoring and detecting procedure sub-information comprises quality detection content, and the monitoring result input information comprises detection test data corresponding to the quality detection content;
inquiring a preset detection standard corresponding to the quality detection content from a preset database;
and if the detection test data does not meet the preset detection standard, generating a supervision rectification instruction according to the supervision detection procedure sub-information and executing.
By adopting the technical scheme, the user inputs the detected data result into the supervisory system, the supervisory system judges whether the actual data of the current project detection content meets the preset standard of the current project detection content, and when the supervisory system finds that the detection test data does not meet the preset detection standard, the supervisory system generates a supervision correction instruction, so that the user timely informs relevant departments to maintain the project.
Optionally, after the step of generating and executing the supervision rectification instruction, the method further includes:
acquiring a preset correction duration corresponding to the quality detection content from a preset database;
acquiring actual rectification time;
and if the actual rectification time reaches the preset rectification duration, acquiring a repeated detection reminding instruction according to the user ID and the sub-information of the supervision detection process, and executing the repeated detection reminding instruction, wherein the repeated detection reminding instruction is used for pushing the repeated detection reminding information to an intelligent terminal of a user.
By adopting the technical scheme, the supervision system performs timing operation on the maintenance process of the project, further generates a repeated detection reminding instruction, and prompts a user to perform secondary detection on the project which does not meet the standard after a period of time.
Optionally, the method further includes:
receiving an illegal behavior investigation request sent by a user through an intelligent terminal, wherein the illegal behavior investigation request carries illegal behavior investigation information used for inquiring and determining illegal responsibilities, and the illegal behavior investigation information comprises illegal behavior procedure sub-information corresponding to the supervision and detection procedure sub-information;
the monitoring detection procedure sub-information also comprises a detection time node and a detection subject identification, and the violation behavior procedure sub-information comprises a query time node corresponding to the detection time node, a query subject identification corresponding to the detection subject identification and a quality query parameter corresponding to the quality detection content;
calling supervision and detection process sub-information corresponding to the violation process sub-information according to the violation process sub-information;
determining user identity sub-information corresponding to the called supervision and detection procedure sub-information according to the called supervision and detection procedure sub-information;
and generating a responsible person pushing instruction according to the determined user identity sub-information and executing the responsible person pushing instruction, wherein the responsible person pushing instruction is used for sending a responsible person pushing signal to an intelligent terminal of the user.
By adopting the technical scheme, when the project is out of specification, the user can inquire the identity of a person in charge who carries out related detection on the project in the past by inputting the violation investigation request, so that the person in charge can be conveniently traced afterwards, and the detection process can be standardized.
Optionally, after the step of generating and executing the responsible person push instruction, the method further includes:
acquiring illegal quality inspection information corresponding to the user ID, wherein the illegal quality inspection information comprises an illegal quality inspection type and illegal quality inspection times corresponding to the illegal quality inspection type;
calling an illegal quality inspection type corresponding to the quality query parameter according to the illegal action procedure sub-information;
determining the number of illegal quality checks corresponding to the called illegal quality check type according to the called illegal quality check type;
and generating an illegal number accumulation instruction according to the illegal quality inspection times and executing the illegal number accumulation instruction, wherein the illegal number accumulation instruction is used for superposing the illegal quality inspection times once.
By adopting the technical scheme, the supervision system accumulates the illegal quality inspection times of each user, so that the user can know the actual detection working condition of the user by inquiring the illegal quality inspection information corresponding to the user ID, and the ability level of the user can be conveniently evaluated.
In a second aspect, the present application provides an engineering construction quality acceptance and supervision system, which adopts the following technical scheme:
an engineering construction quality acceptance supervisory system, comprising:
the monitoring process updating system comprises a monitoring process updating request receiving module, a monitoring process updating request processing module and a monitoring process updating module, wherein the monitoring process updating request receiving module is used for receiving a monitoring process updating request sent by a user through an intelligent terminal, the monitoring process updating request carries monitoring process updating information used for updating a supervision node, and the monitoring process updating information comprises user identity sub-information and supervision and detection procedure sub-information corresponding to the user identity sub-information;
the node procedure monitoring record generating module is used for generating a node procedure monitoring record according to the monitoring process updating information;
the node engineering acceptance table generating module is used for generating a node engineering acceptance table according to the node procedure monitoring records, and the node engineering acceptance table is generated by summarizing the node procedure monitoring records;
and the node engineering acceptance sheet pushing module is used for pushing the node engineering acceptance sheet to an intelligent terminal of a user.
In a third aspect, the present application provides an intelligent terminal, which adopts the following technical scheme:
an intelligent terminal comprises a memory and a processor, wherein the memory is stored with a computer program which can be loaded by the processor and can execute any one of the engineering construction quality acceptance supervision methods.
In a fourth aspect, the present application provides a computer-readable storage medium, which adopts the following technical solutions:
a computer readable storage medium storing a computer program capable of being loaded by a processor and executing any one of the above-mentioned engineering construction quality acceptance supervision methods.
In summary, the present application includes at least one of the following beneficial technical effects:
when the user carries out stage inspection to the engineering construction, every user all sends the monitoring process update request through intelligent terminal when detecting, supervisory system receives monitoring process update message, correspond and generate node process monitoring record, collect every user to the detection data of engineering to the node engineering acceptance table in, and will collect gained node engineering acceptance table propelling movement to every user's intelligent terminal, make the user can learn other monitoring data of current engineering through looking over the node engineering acceptance table, make the user can know the current engineering detection condition comprehensively.
When a user wants to input monitoring process updating information, the monitoring system verifies the identity of the user, judges whether the current user has monitoring authority, and receives the monitoring process updating information input by the current user and sorts and generates corresponding node process monitoring records if the qualification of the current user can perform monitoring operation on an engineering project.
And when the monitoring system finds that the detection test data does not meet the preset detection standard, the monitoring system generates a supervision correction instruction, so that the user timely informs relevant departments to maintain the project.
Detailed Description
The present application is described in further detail below with reference to figures 1-4.
The embodiment of the application discloses a method, a system and a device for checking and supervising engineering construction quality and a storage medium.
Referring to fig. 1, a method for checking and supervising engineering construction quality includes:
s101, receiving a monitoring process updating request sent by a user through an intelligent terminal.
Specifically, when the users detect the engineering construction in stages, each user sends a monitoring process updating request through the intelligent terminal during detection, and the monitoring system receives monitoring process updating information. The monitoring process updating request carries monitoring process updating information used for updating the supervision node, and the monitoring process updating information comprises user identity sub-information and supervision detection procedure sub-information corresponding to the user identity sub-information.
S102, inquiring detection qualification information corresponding to the user identity sub-information from a preset database.
Specifically, the sub-information of the user identity includes a user ID and monitoring qualification data corresponding to the user ID. When a user wants to enter update information of a monitoring process, the supervision system needs to verify the identity of the user. And the monitoring system inquires the detection qualification information corresponding to the user identity sub-information from a preset database.
And S103, if the sub-information of the user identity is consistent with the detection qualification information, generating a node process monitoring record.
Specifically, the monitoring system compares the sub-information of the user identity with the detection qualification information to judge whether the current user has monitoring authority, and if the qualification of the current user can perform monitoring operation on the engineering project, the monitoring system receives the monitoring process updating information input by the current user, and arranges and generates the corresponding node process monitoring record according to the monitoring process updating information.
And S104, generating a node project acceptance table.
Specifically, the supervisory system generates a node engineering acceptance table according to the node process monitoring records, and the node engineering acceptance table is generated by summarizing the node process monitoring records. When the user carries out detection work, the monitoring system correspondingly generates node process monitoring records, and data of each user for detecting the engineering project each time are collected into a node engineering acceptance table.
And S105, pushing the node project acceptance sheet to an intelligent terminal of a user.
Specifically, the supervisory systems pushes the node engineering acceptance table obtained in the summary to the intelligent terminal of each user, so that the user can know other monitoring data of the current engineering by looking up the node engineering acceptance table, and the user can comprehensively know the current engineering detection condition.
As an implementation manner, S102 to S103 in the embodiments of the present application are optional.
Referring to fig. 2, before S105, a supervision and modification instruction is further generated according to the detection test data, which specifically includes the following steps:
s201, receiving a monitoring result entry request sent by a user through an intelligent terminal.
Specifically, after the user finishes the detection work, the user inputs the detected data result into the monitoring system, and the user sends a monitoring result input request to the monitoring system through the intelligent terminal. The monitoring result input request carries monitoring result input information used for inputting the detection result, and the monitoring result input information corresponds to the sub-information of the monitoring and detecting procedure.
The monitoring detection procedure sub-information comprises quality detection content, and the quality detection content is used for indicating the specific data type to be detected by the current user; the monitoring result entry information includes detection test data corresponding to the quality detection content.
For example, the quality detection content may be the quality of the concrete test block, and the detection test data are various performance parameters corresponding to the current concrete test block.
S202, inquiring a preset detection standard corresponding to the quality detection content from a preset database.
Specifically, after the monitoring system receives the quality detection content input by the user and the detection test data corresponding to the quality detection content, the monitoring system queries a preset detection standard corresponding to the quality detection content from a preset database. The preset detection standard is preset and generated by a user and is used for representing a standard data range corresponding to the current quality detection content in a normal state.
And S203, if the detection test data does not meet the preset detection standard, generating a supervision rectification instruction and executing.
Specifically, the supervision system judges whether actual data of the current project detection content meets a preset standard of the current project detection content, and the supervision system judges whether the currently detected project parameters are qualified by comparing the detection test data with the preset detection standard.
If the monitoring system finds that the detection test data does not meet the preset detection standard, the monitoring system generates a supervision and correction instruction and executes the supervision and correction instruction according to the sub-information of the supervision and detection process, so that a user can timely inform relevant departments of carrying out maintenance processing on the project.
And S204, acquiring a preset correction duration corresponding to the quality detection content from a preset database.
Specifically, when the monitoring system detects an unqualified project parameter, the monitoring system obtains a preset correction duration corresponding to the quality detection content from a preset database. The preset correcting time is generated by presetting for a user, and the preset correcting time is used for expressing the maximum time limit allowed by correcting the current illegal project.
And S205, acquiring the actual rectification time.
Specifically, the supervision system performs timing operation on the maintenance process of the project through a timer, and obtains the actual rectification time corresponding to the current project.
And S206, if the actual rectification time reaches the preset rectification duration, generating a repeated detection reminding instruction and executing.
Specifically, if the actual modification time reaches the preset modification time, it indicates that the modification time has arrived. And the supervision system acquires the sub-information of the supervision and detection process according to the user ID and generates a repeated detection reminding instruction and executes the repeated detection reminding instruction according to the user ID and the sub-information of the supervision and detection process.
The repeated detection reminding instruction is used for pushing repeated detection reminding information to an intelligent terminal of a user, and the supervision system pushes supervision detection procedure sub-information to a corresponding responsible user to prompt the user to detect the project which does not meet the standard again within a specified time.
As an implementation manner, S204 to S206 in the embodiment of the present application are optional.
Referring to fig. 3, the embodiment discloses a method for checking and supervising engineering construction quality, which specifically includes the following steps:
s301, a violation investigation request sent by a user through an intelligent terminal is received.
Specifically, when the project is out of specification, the user can inquire the detection person in charge of the violation condition by inputting the violation investigation request. The violation investigation request carries violation investigation information used for inquiring and determining violation responsibilities, and the violation investigation information comprises violation procedure sub-information corresponding to the supervision and detection procedure sub-information.
The monitoring detection procedure sub-information further comprises a detection time node and a detection subject identification, and the violation procedure sub-information comprises a query time node corresponding to the detection time node, a query subject identification corresponding to the detection subject identification and a quality query parameter corresponding to the quality detection content.
And S302, calling monitoring and detecting process sub-information corresponding to the violation process sub-information.
Specifically, the supervision system calls the supervision and detection process sub-information corresponding to the violation process sub-information according to the violation process sub-information. The user correspondingly inputs the illegal behavior investigation information to be inquired aiming at the unqualified project, and the supervision system automatically matches the supervision and detection procedure sub-information corresponding to the illegal behavior procedure sub-information to play a role in information inquiry and screening.
And S303, determining the user identity sub-information corresponding to the invoked supervision detection process sub-information.
Specifically, the supervisory system determines user identity sub-information corresponding to the invoked supervised detection procedure sub-information according to the invoked supervised detection procedure sub-information. And after the supervision system automatically matches the supervision detection process sub-information corresponding to the violation process sub-information, determining the user identity sub-information corresponding to the invoked supervision detection process sub-information, and inquiring the identity of a person in charge of relevant process detection on the engineering project in the past.
And S304, generating and executing a responsible person pushing instruction.
Specifically, the supervision system generates and executes a responsible person pushing instruction according to the determined user identity sub-information, the responsible person pushing instruction is used for sending a responsible person pushing signal to the intelligent terminal of the user, and the supervision system pushes the responsible person responsible for the inquired project process to the user. And then be convenient for engineering detection acceptance process's responsibility of pursuing after the fact, be favorable to the person of blazing, standardize the testing process.
And S305, acquiring violation quality control information corresponding to the user ID.
Specifically, when the violation detection condition occurs in the detection project corresponding to a certain user ID, the monitoring system performs real-time statistics on the actual violation condition, and the monitoring system acquires violation quality inspection information corresponding to the user ID, wherein the violation quality inspection information comprises a violation quality inspection type and violation quality inspection times corresponding to the violation quality inspection type.
And S306, calling the violation quality inspection type corresponding to the quality inquiry parameter.
Specifically, the supervision system calls the violation quality inspection type corresponding to the quality query parameter according to the violation procedure sub-information. A plurality of quality detection contents exist in the project engineering, and corresponding illegal quality detection types exist in different quality detection contents when illegal conditions occur.
And S307, determining the illegal quality inspection times corresponding to the called illegal quality inspection type.
Specifically, the supervision system determines the illegal quality inspection times corresponding to the called illegal quality inspection type according to the called illegal quality inspection type.
And S308, generating and executing a violation number accumulation instruction.
Specifically, the supervision system generates and executes an illegal number accumulation instruction according to the illegal quality inspection times, and the illegal number accumulation instruction is used for superposing the illegal quality inspection times once. For example, when the user with the user ID of 000 has the violation quality inspection condition with the violation quality inspection type a, the supervision system accumulates 1 on the basis of the number of violation quality inspections corresponding to the violation quality inspection type a corresponding to the user with the user ID of 000.
The supervision system accumulates the illegal quality inspection times of each user, so that the user can know the actual detection working condition of the user by inquiring the illegal quality inspection information corresponding to the user ID, and the ability level of the user can be conveniently evaluated.
As an implementation manner, S305 to S308 in the embodiment of the present application are optional.
The implementation principle of the engineering construction quality acceptance supervision method in the embodiment of the application is as follows: when the user carries out periodic inspection on the engineering construction, according to the detection process condition of the user, the monitoring process updating request is sent through the intelligent terminal, the monitoring system receives the monitoring process updating information, the node process monitoring records are correspondingly generated, the detection data of the engineering of each user are collected to the node engineering acceptance table, the collected node engineering acceptance table is pushed to the intelligent terminal of each user, and the user can conveniently know other monitoring data of the current engineering by checking the node engineering acceptance table.
Based on the method, the embodiment of the application also discloses a project construction quality acceptance supervision system. Referring to fig. 4, an engineering construction quality acceptance and supervision system includes:
the monitoring process updating method comprises a monitoring process updating request receiving module 1, wherein the monitoring process updating request receiving module 1 is used for receiving a monitoring process updating request sent by a user through an intelligent terminal, the monitoring process updating request carries monitoring process updating information used for updating a supervision node, and the monitoring process updating information comprises user identity sub-information and supervision and detection process sub-information corresponding to the user identity sub-information.
And the node process monitoring record generating module 2 is used for generating the node process monitoring record according to the monitoring process updating information.
The node engineering acceptance table generating module 3 is used for generating a node engineering acceptance table according to the node procedure monitoring records, and the node engineering acceptance table is generated by summarizing the node procedure monitoring records.
Node engineering acceptance table propelling movement module 4, node engineering acceptance table propelling movement module 4 is used for propelling movement node engineering acceptance table to user's intelligent terminal.
The embodiment of the application also discloses an intelligent terminal which comprises a memory and a processor, wherein the memory is stored with a computer program which can be loaded by the processor and can execute the engineering construction quality acceptance supervision method.
The embodiment of the application also discloses a computer readable storage medium. A computer program capable of being loaded by a processor and executing a method for project construction quality acceptance supervision as described above is stored in a computer readable storage medium, which includes, for example: various media capable of storing program codes, such as a usb disk, a removable hard disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk, or an optical disk.
The above examples are only used to illustrate the technical solutions of the present invention, and do not limit the scope of the present invention. It is to be understood that the described embodiments are merely exemplary of the invention, and not restrictive of the full scope of the invention. All other embodiments, which can be derived by a person skilled in the art from these embodiments without making any inventive step, fall within the scope of the present invention. Although the present invention has been described in detail with reference to the above embodiments, those skilled in the art may still make various combinations, additions, deletions or other modifications of the features of the embodiments of the present invention according to the situation without conflict, so as to obtain different technical solutions without substantially departing from the spirit of the present invention, and these technical solutions also fall within the protection scope of the present invention.