CN113946947A - Vibration environment detection method, system, device and storage medium - Google Patents

Abstract

The application relates to a vibration environment detection method, a system, a device and a storage medium, which relate to the field of physical simulation, wherein the method comprises the following steps: obtaining authorized construction information, wherein the authorized construction information comprises an authorized construction site and authorized construction time corresponding to the authorized construction site; acquiring actual construction information, wherein the actual construction information comprises an actual construction site and actual construction time corresponding to the actual construction site; determining an authorized construction site corresponding to the actual construction site; according to the determined authorized construction site, extracting authorized construction time corresponding to the determined authorized construction site; judging whether the actual construction time is consistent with the extracted authorized construction time or not according to the extracted authorized construction time; if not, generating an alarm instruction and executing, wherein the alarm instruction is used for pushing an alarm signal to the intelligent terminal of the user. The method and the device have the effect that the vibration detection system can automatically judge whether the construction process is illegal.

Description

Vibration environment detection method, system, device and storage medium

Technical Field

The present application relates to the field of physical simulation, and in particular, to a method, a system, an apparatus, and a storage medium for detecting a vibration environment.

Background

When a construction operation is performed on a road surface, relative vibration may occur between the construction equipment and the road surface.

The related art can refer to chinese patent with publication number CN108573084A, which discloses an environmental vibration test method and system, the method includes: establishing a finite element model of the test object, and obtaining a vibration finite element equation of the test object based on the finite element model; calculating a time domain transfer function of the test object based on a vibration finite element equation; and calculating the vibration response of each node of the finite element model based on the real-time vibration excitation acceleration acting on the test object and the time-domain transfer function of the test object. The vibration detection system indirectly acquires the construction condition of the road surface by detecting the vibration condition of the road surface.

With respect to the related art among the above, the inventors consider that the following drawbacks exist: when the vibration detection system detects that the construction condition exists on the road surface, the vibration detection system cannot judge whether the current construction process is legal or not, after the vibration detection system pushes the construction condition to a user, the user needs to manually screen and judge whether the construction process is illegal or not, and the defect that the user cannot simply and conveniently know the illegal construction condition of the road section exists.

Disclosure of Invention

In order to enable a user to timely and simply know the illegal construction condition of a road surface, the application provides a vibration environment detection method, a system, a device and a storage medium.

In a first aspect, the present application provides a method for detecting a vibration environment, which adopts the following technical scheme:

a vibration environment detection method comprises the following steps:

acquiring authorized construction information preset and generated by a user, wherein the authorized construction information comprises an authorized construction place and authorized construction time corresponding to the authorized construction place;

acquiring actual construction information, wherein the actual construction information comprises an actual construction site and actual construction time corresponding to the actual construction site;

determining an authorized construction site corresponding to the actual construction site according to the actual construction site;

according to the determined authorized construction site, extracting authorized construction time corresponding to the determined authorized construction site;

judging whether the actual construction time is consistent with the extracted authorized construction time or not according to the extracted authorized construction time;

if not, generating an alarm instruction and executing, wherein the alarm instruction is used for pushing an alarm signal to an intelligent terminal of the user.

By adopting the technical scheme, when the vibration detection system detects the vibration construction condition of the road surface, the vibration detection system compares the actual construction time, the construction site with the preset construction time and the preset construction site, judges whether the road section constructed currently has the construction authority, and indicates that a constructor carries out illegal reconstruction on the road section when the road section does not have the construction authority, the vibration detection system generates an alarm instruction at the moment, prompts a user that the condition of illegal construction exists, so that the user can timely supervise the road section with the illegal construction condition, and the vibration detection system can automatically judge whether the construction process meets the regulations, so that the user can directly know the illegal construction condition of the road surface without manual screening.

Optionally, before the step of obtaining the authorized construction information preset and generated by the user, the method further includes:

receiving a construction request sent by a constructor through an intelligent terminal, wherein the construction request carries construction information used for making a construction application, and the construction information comprises a construction request place and construction request time corresponding to the construction request place;

generating and executing a permission acquisition instruction according to the construction information, wherein the permission acquisition instruction is used for pushing the construction information to an intelligent terminal of a user;

acquiring the construction authority, wherein the construction authority is generated by a user according to the construction information;

and generating a new command and executing the new command according to the construction permission, wherein the new command is used for newly generating corresponding authorized construction information according to the construction request site and the construction request time corresponding to the construction request site.

By adopting the technical scheme, before a constructor wants to carry out engineering construction, the constructor sends a construction request to the vibration detection system through the intelligent terminal, the vibration detection system pushes construction information to the intelligent terminal of the user, the user determines whether to approve the construction request of the constructor or by browsing the construction request of the constructor, when the user approves the construction request of the constructor, the user grants construction permission corresponding to the constructor, at the moment, the vibration detection system updates the construction request time and the construction request place input by the constructor into the authorized construction information, the updating function of the authorized construction information is realized, and the authorized construction information can be reasonably established according to the construction request.

Optionally, after the step of obtaining the actual construction information, the method further includes:

acquiring a construction completion site;

determining an authorized construction site corresponding to the construction completion site according to the construction completion site;

according to the determined authorized construction site, extracting authorized construction time corresponding to the determined authorized construction site;

and generating a deleting instruction according to the determined authorized construction site and the extracted authorized construction time, wherein the deleting instruction is used for deleting the authorized construction site and the corresponding authorized construction time.

By adopting the technical scheme, after a constructor finishes a construction project applied by the constructor, the constructor withdraws from a construction site, the vibration detection system cannot detect construction vibration for a long time, the vibration detection system knows that local construction is finished, the vibration detection system extracts the construction finished site and determines an authorized construction site corresponding to the construction finished site, and the vibration detection system generates a deletion instruction according to the authorized construction site and corresponding authorized construction time, deletes the authorized construction site and the authorized construction time after construction is finished, so that the redundancy of information is reduced, and the subsequent information query process can be simpler and more convenient.

Optionally, after the step of generating and executing the alarm instruction, the method further includes:

acquiring abnormal construction information, wherein the abnormal construction information comprises an abnormal construction site and abnormal construction time corresponding to the abnormal construction site;

and pushing the abnormal construction information to an intelligent terminal of a user.

By adopting the technical scheme, when the vibration detection system detects that a constructor carries out illegal reconstruction operation on a certain road section, the vibration detection system acquires an abnormal construction site and abnormal construction time, and the vibration detection system pushes the acquired abnormal construction site and the acquired abnormal construction time to the intelligent terminal of a user, so that the user can timely learn specific information of illegal construction conditions, and the user can conveniently carry out related supervision and responsibility following work on the illegal constructor.

Optionally, after the step of pushing the abnormal construction information to the user intelligent terminal, the method further includes:

acquiring an abnormal construction monitoring video;

and pushing the abnormal construction monitoring video to an intelligent terminal of a user.

By adopting the technical scheme, when the vibration detection system detects that a constructor carries out illegal reconstruction operation on a certain road section, the vibration detection system acquires the monitoring information of the place and pushes the abnormal construction monitoring video to the intelligent terminal of the user, so that the user can timely know the related information of the illegal constructor and provide evidence for the subsequent responsibility tracing process.

Optionally, the method further includes:

calling a preset maintenance period, wherein the preset maintenance period is generated by presetting of a user;

acquiring the actual working time according to the preset maintenance period;

judging whether the actual working time length reaches the preset maintenance period or not according to the preset maintenance period and the actual working time length;

if the judgment result is yes, generating a prompt instruction and executing the prompt instruction, wherein the prompt instruction is used for sending prompt information to an intelligent terminal of a user;

and generating a zero clearing instruction and executing, wherein the zero clearing instruction is used for controlling the actual working time length to be cleared and accumulated again.

By adopting the technical scheme, when the detection point works, a user needs to overhaul and maintain the detection point regularly, the maintenance period of the detection point is preset by the user at the moment, when the actual working time of the detection point reaches the maintenance period, the vibration detection system prompts the user to overhaul and maintain the detection point, the user can conveniently carry out regular maintenance and cleaning on the detection point, and the service life of the detection point is further prolonged.

Optionally, the method further includes:

acquiring an abnormal state of a detection point;

acquiring corresponding detection point positions according to the abnormal states of the detection points;

and generating and executing a maintenance instruction according to the position of the detection point and the abnormal state of the detection point, wherein the maintenance instruction is used for pushing a maintenance signal to an intelligent terminal of a user.

By adopting the technical scheme, when the detection points work, the vibration detection system monitors the working state of each detection point in real time, when a certain detection point fails to work normally, the vibration detection system acquires the specific position of the detection point and the fault reason of the detection point, the vibration detection system generates a maintenance instruction, the current state of the detection point is pushed to the intelligent terminal of a user, the user can know the fault condition of the detection point in time, and the user can maintain the detection point in time.

In a second aspect, the present application provides a vibration environment detection system, which adopts the following technical scheme:

a vibratory environment detection system, comprising:

the construction authorization information acquisition module is used for acquiring construction authorization information preset and generated by a user, wherein the construction authorization information comprises an authorized construction site and construction authorization time corresponding to the authorized construction site;

the actual construction information acquisition module is used for acquiring actual construction information, and the actual construction information comprises an actual construction site and actual construction time corresponding to the actual construction site;

the authorized construction site determining module is used for determining an authorized construction site corresponding to the actual construction site according to the actual construction site;

the authorized construction time extracting module is used for extracting authorized construction time corresponding to the determined authorized construction place according to the determined authorized construction place;

the authorization information comparison and judgment module is used for judging whether the actual construction time is consistent with the extracted authorized construction time or not according to the extracted authorized construction time;

and the alarm instruction generating module is used for generating and executing an alarm instruction, and the alarm instruction is used for pushing an alarm signal to the intelligent terminal of the 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 vibration environment detection 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 that can be loaded by a processor and executes any of the above-described vibration environment detection methods.

In summary, the present application includes at least one of the following beneficial technical effects:

1. when the vibration detection system detects the vibration construction condition of the road surface, the vibration detection system compares actual construction time, construction site with preset construction time and construction site, judges whether the road section under current construction has construction authority, and when the road section does not have the construction authority, the fact that a constructor carries out illegal reconstruction on the road section is described, the vibration detection system generates an alarm instruction at the moment, prompts a user that the condition of illegal construction exists, so that the user can timely supervise the road section with the illegal construction condition, the vibration detection system can automatically judge whether the construction process meets the regulations, and the user can directly know the illegal construction condition of the road surface without manual screening.

2. When the vibration detection system detects that a constructor carries out illegal rebuilding operation on a certain road section, the vibration detection system acquires an abnormal construction site and abnormal construction time, and the vibration detection system pushes the acquired abnormal construction site and the acquired abnormal construction time to an intelligent terminal of a user, so that the user can timely know specific information of illegal building conditions, and the user can conveniently carry out related supervision and responsibility following work on the illegal constructor.

3. When a certain detection point fails to work normally, the vibration detection system acquires the specific position of the detection point and the fault reason of the detection point, generates a maintenance instruction and pushes the current state of the detection point to an intelligent terminal of a user, so that the user can know the fault condition of the detection point in time and can maintain the detection point in time.

Drawings

Fig. 1 is a schematic flow chart of a vibration environment detection method according to an embodiment of the present application.

Fig. 2 is a schematic flowchart of a process of generating and executing a new instruction in the embodiment of the present application.

Fig. 3 is a schematic flowchart of extracting authorized construction time corresponding to the determined authorized construction location in the embodiment of the present application.

Fig. 4 is a schematic flow chart of pushing an abnormal construction monitoring video to an intelligent terminal of a user in the embodiment of the present application.

Fig. 5 is a flowchart illustrating the generation and execution of a clear instruction in the embodiment of the present application.

Fig. 6 is a schematic flowchart of acquiring a position of a corresponding detection point in the embodiment of the present application.

Fig. 7 is a block diagram of a vibration environment detection system according to an embodiment of the present application.

Description of reference numerals: 1. an authorized construction information acquisition module; 2. an actual construction information acquisition module; 3. an authorized construction site determination module; 4. an authorized construction time extraction module; 5. an authorization information comparison and judgment module; 6. and an alarm instruction generating module.

Detailed Description

The present application is described in further detail below with reference to figures 1-7.

The embodiment of the application discloses a vibration environment detection method, a system, a device and a storage medium.

Referring to fig. 1, a vibration environment detection method includes:

s101: and acquiring the authorized construction information preset and generated by the user.

The authorized construction information comprises an authorized construction place and authorized construction time corresponding to the authorized construction place. Before the vibration detection system works, a user presets and inputs authorized construction information according to a local authorized project, the vibration detection system stores an authorized construction place set by the user and authorized construction time corresponding to the authorized construction place in a database, and when the vibration detection system works, the project authorization condition is known by calling related information in the database.

For example, the authorized construction time corresponding to the authorized construction site a is 2020, 1 month to 2021, 12 months; the authorized construction time corresponding to the authorized construction site B is from 2 months in 2020 to 6 months in 2021.

S102: and acquiring actual construction information.

Specifically, the actual construction information includes an actual construction site and actual construction time corresponding to the actual construction site. When the vibration detection system works, the vibration detection system detects the vibration condition of the road surface in real time through the detection point arranged on the ground. The detection point comprises an underground lamp, the user installs the underground lamp on a road section needing to be monitored in advance, the underground lamp monitors the vibration construction condition of the road surface through a vibration sensor arranged in the underground lamp in the process of illuminating the road surface, and then the vibration construction condition of the road surface is detected in real time.

For example, when the underground lamp located at the place a detects that the vibration construction condition exists in the place a, the vibration detection system knows that the place a is in the construction state at the moment, and the vibration detection system further obtains the current time, and knows that the actual construction time corresponding to the actual construction place a is 2021 years and 10 months.

S103: an authorized construction site corresponding to the actual construction site is determined.

Specifically, the vibration detection system determines an authorized construction site corresponding to the actual construction site according to the actual construction site detected by the underground lamp. For example, the vibration detection system determines an authorized construction site corresponding to site a, and at this time, the vibration detection system determines an authorized construction site a corresponding to the actual construction site a by comparing the actual construction site a with authorized construction sites in the database one by one.

S104: an authorized construction time corresponding to the determined authorized construction location is extracted.

Specifically, the vibration detection system extracts authorized construction time corresponding to the determined authorized construction site according to the determined authorized construction site. For example, the vibration detection system queries the data in the database, and thus knows that the authorized construction time corresponding to the authorized construction location a is 2020, 1 month to 2021, 12 months.

S105: judging whether the actual construction time is consistent with the extracted authorized construction time, and if so, repeatedly acquiring actual construction information; if not, generating an alarm instruction and executing.

Specifically, the vibration detection system judges whether the actual construction time is consistent with the extracted authorized construction time according to the extracted authorized construction time. The vibration detection system judges whether the current construction road section has construction permission or not by comparing the actual construction time and the actual construction site with the preset construction time and the preset construction site.

When the road section has no construction right, the fact that a constructor is carrying out illegal reconstruction on the road section is indicated, and at the moment, the vibration detection system generates an alarm instruction, wherein the alarm instruction is used for pushing an alarm signal to an intelligent terminal of a user. The vibration detection system prompts a user that the condition of illegal construction exists, so that the user can timely supervise the road section with the illegal construction condition, the vibration detection system can automatically judge whether the construction process meets the regulations, and the user can directly know the illegal construction condition of the road surface.

Referring to fig. 2, before S101, a new building instruction is generated according to the construction information, which specifically includes the following steps:

s201: and receiving a construction request sent by a constructor through an intelligent terminal.

The construction request carries construction information used for proposing a construction application, and the construction information comprises a construction request place and construction request time corresponding to the construction request place. Before a constructor wants to carry out engineering construction in a target area, the constructor sends a construction request to a vibration detection system through an intelligent terminal and inputs construction authorization time and a corresponding place which the constructor wants to obtain. For example, the construction site requested by the constructor is C, and the corresponding construction time request is from 1 month in 2021 to 12 months in 2021.

S202: and generating and executing the authority acquisition instruction.

Specifically, the vibration detection system generates and executes an authority acquisition instruction according to the construction information, and the authority acquisition instruction is used for pushing the construction information to an intelligent terminal of a user. The vibration detection system pushes construction information input by a constructor to an intelligent terminal of a user, so that the user can check construction requirements of the constructor, and the user can determine whether to agree with the construction request of the constructor by browsing the construction request of the constructor and combining the related identity qualification of the constructor and the successful bid condition of an enterprise.

S203: and acquiring construction authority.

Specifically, the vibration detection system acquires construction authority, wherein the construction authority is generated by a user according to construction information. When the user determines that the current constructor has the right and the qualification to carry out the construction operation on the road surface by inquiring the relevant data, the user agrees the construction request of the constructor and grants the construction authority corresponding to the constructor.

S204: and generating a new command and executing.

Specifically, the vibration detection system generates and executes a new instruction according to the construction authority, and the new instruction is used for newly generating corresponding authorized construction information according to the requested construction site and the requested construction time corresponding to the requested construction site. The vibration detection system updates the construction request time and the construction request place input by the constructor into the authorized construction information, realizes the updating function of the authorized construction information, and enables the authorized construction information to be reasonably newly built according to the request of the constructor.

Referring to fig. 3, after S102, a delete instruction is generated according to the construction completion location, which specifically includes the following steps:

s301: and acquiring a construction completion site.

Specifically, after the constructor finishes the construction project that its applied for, the constructor withdraws from the construction place, and the underground lamp can not detect the construction vibration for a long time this moment, and vibration detecting system learns that local construction has been accomplished, and detecting system carries out accurate location to the place of accomplishing of being under construction, acquires the construction and accomplishes the place. For example, the vibration detection system locates that the current construction completion location is a.

S302: an authorized construction site corresponding to the construction completion site is determined.

Specifically, the vibration detection system determines an authorized construction site corresponding to the construction completion site according to the construction completion site. For example, the vibration detection system determines an authorized construction site a corresponding to a construction completion site a.

S303: an authorized construction time corresponding to the determined authorized construction location is extracted.

Specifically, the vibration detection system extracts authorized construction time corresponding to the determined authorized construction site according to the determined authorized construction site. For example, the vibration detection system extracts the authorized construction time corresponding to the determined authorized construction site a from 1 month in 2020 to 12 months in 2021.

S304: and generating a deleting instruction.

Specifically, the vibration detection system generates a deletion instruction according to the determined authorized construction site and the extracted authorized construction time, and the deletion instruction is used for deleting the authorized construction site and the corresponding authorized construction time. The vibration detection system extracts a construction completion place, determines an authorized construction place corresponding to the construction completion place, generates a deletion instruction, deletes the authorized construction place and the authorized construction time after construction is completed, and further reduces the redundancy of information in the database, so that the subsequent information query process can be simpler and more convenient.

Referring to fig. 4, after S105, the method further pushes abnormal construction information to the intelligent terminal of the user, and specifically includes the following steps:

s401: and acquiring abnormal construction information.

The abnormal construction information comprises an abnormal construction site and abnormal construction time corresponding to the abnormal construction site. When the vibration detection system detects that a constructor carries out illegal rebuilding operation on a certain road section, the vibration detection system immediately acquires a corresponding abnormal construction place and abnormal construction time.

S402: and pushing the abnormal construction information to an intelligent terminal of a user.

Specifically, the vibration detection system pushes the acquired abnormal construction site and the acquired abnormal construction time to the intelligent terminal of the user, so that the user can timely know the specific information of the illegal construction condition, and the user can conveniently perform related supervision and responsibility pursuit work on the illegal person.

Referring to fig. 4, further, after S402, as an implementation manner, the embodiment of the present application may further include:

s403: and acquiring an abnormal construction monitoring video.

Specifically, when the vibration detection system detects that a constructor carries out illegal reconstruction operation on a certain road section, the vibration detection system acquires monitoring information of the place, and then acquires and records illegal construction conditions.

S404: and pushing the abnormal construction monitoring video to an intelligent terminal of a user.

Specifically, the vibration detection system pushes the abnormal construction monitoring video to the intelligent terminal of the user, so that the user can timely know the relevant information of the offender and provide evidence for the subsequent responsibility following process.

Referring to fig. 5, the present embodiment discloses a method for detecting a vibration environment, which specifically includes the following steps:

s501: a preset maintenance period is invoked.

Wherein, the preset maintenance period is preset and generated by a user. When the underground lamp works, a user needs to overhaul and maintain the underground lamp regularly, and at the moment, the maintenance period of the underground lamp is preset by the user, so that the vibration detection system reminds the user of carrying out periodic maintenance on the underground lamp according to the maintenance period preset by the user.

S502: and acquiring the actual working time length.

Specifically, the vibration detection system acquires the actual working time of the underground lamp according to a preset maintenance period. When the underground lamp works, the vibration detection system obtains the actual working time of the underground lamp in an accumulated mode through the timer.

S503: and judging whether the actual working time length reaches a preset maintenance period, and if the actual working time length does not reach the preset maintenance period, repeatedly acquiring the actual working time length.

Specifically, the vibration detection system judges whether the actual working time length reaches the preset maintenance period or not according to the preset maintenance period and the actual working time length, and when the actual working time length of the underground lamp does not reach the preset maintenance period, the timer accumulates the working time length of the underground lamp in real time and repeatedly judges.

S504: and if the actual working time reaches the preset maintenance period, generating a prompt instruction and executing.

The prompt instruction is used for sending prompt information to an intelligent terminal of a user. When the actual working time of the detection point reaches the maintenance period, the vibration detection system generates a prompt instruction and executes the prompt instruction to prompt a user to overhaul and maintain the detection point, so that the user can conveniently maintain and clean the detection point regularly, and the service life of the detection point is further prolonged.

S505: and generating a zero clearing instruction and executing.

And the zero clearing instruction is used for controlling the actual working time length to be cleared and accumulated again. After the user receives the prompt instruction, the user carries out related maintenance detection on the underground lamp, at the moment, the vibration detection system generates and executes a zero clearing instruction, so that the timer starts to repeatedly time the working time of the underground lamp, and the user can be prompted to maintain the underground lamp in a subsequent maintenance period.

Referring to fig. 6, the present embodiment discloses a method for detecting a vibration environment, which specifically includes the following steps:

s601: and acquiring the abnormal state of the detection point.

Specifically, when the underground lamp works, the vibration detection system monitors the working state of each underground lamp in real time, and when a certain underground lamp fails to work normally, the vibration detection system acquires the abnormal state of the point.

S602: and acquiring the position of the corresponding detection point.

Specifically, the vibration detection system acquires the corresponding detection point position according to the abnormal state of the detection point. The vibration detection system acquires the specific position of the underground lamp and the fault reason thereof, and acquires the relevant fault information of the underground lamp.

S603: and generating and executing a maintenance instruction.

Specifically, the vibration detection system generates and executes a maintenance instruction according to the position of the detection point and the abnormal state of the detection point, wherein the maintenance instruction is used for pushing a maintenance signal to the intelligent terminal of the user. After the vibration detection system generates a maintenance instruction, the current state of the detection point is pushed to the intelligent terminal of the user, so that the user can know the fault condition of the detection point in time, and the user can perform timely maintenance processing on the detection point.

The implementation principle of the vibration environment detection method in the embodiment of the application is as follows: when the vibration detection system detects the vibration construction condition of a certain road section, the vibration detection system compares actual construction time and construction site with preset construction time and construction site to judge whether the currently constructed road section has construction authority, and when the road section has no construction authority, the situation that a constructor carries out illegal reconstruction on the road section is shown, at the moment, the vibration detection system generates an alarm instruction to prompt a user that the illegal construction condition exists, so that the user can timely supervise the road section with the illegal construction condition, and the vibration detection system can automatically judge whether the construction process meets the regulations, so that the user can directly know the illegal construction condition of the road surface.

Based on the method, the embodiment of the application also discloses a vibration environment detection system. Referring to fig. 7, a vibration environment detection system includes:

the construction authorization system comprises an authorization construction information acquisition module 1, wherein the authorization construction information acquisition module 1 is used for acquiring authorization construction information preset and generated by a user, and the authorization construction information comprises an authorization construction place and authorization construction time corresponding to the authorization construction place.

The actual construction information acquisition module 2 is used for acquiring actual construction information, and the actual construction information includes an actual construction site and actual construction time corresponding to the actual construction site.

And the authorized construction site determining module 3 is used for determining an authorized construction site corresponding to the actual construction site according to the actual construction site.

And the authorized construction time extraction module 4 is used for extracting the authorized construction time corresponding to the determined authorized construction place according to the determined authorized construction place.

And the authorization information comparison and judgment module 5 is used for judging whether the actual construction time is consistent with the extracted authorized construction time according to the extracted authorized construction time.

And the alarm instruction generating module 6 is used for generating and executing an alarm instruction, and the alarm instruction is used for pushing an alarm signal to the intelligent terminal of the user.

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 vibration environment detection 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 vibration environment detection method 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.

Claims (10)

1. A vibration environment detection method is characterized by comprising the following steps:

acquiring authorized construction information preset and generated by a user, wherein the authorized construction information comprises an authorized construction place and authorized construction time corresponding to the authorized construction place;

acquiring actual construction information, wherein the actual construction information comprises an actual construction site and actual construction time corresponding to the actual construction site;

determining an authorized construction site corresponding to the actual construction site according to the actual construction site;

according to the determined authorized construction site, extracting authorized construction time corresponding to the determined authorized construction site;

judging whether the actual construction time is consistent with the extracted authorized construction time or not according to the extracted authorized construction time;

if not, generating an alarm instruction and executing, wherein the alarm instruction is used for pushing an alarm signal to an intelligent terminal of the user.

2. The method for detecting a vibration environment according to claim 1, further comprising, before the step of obtaining the authorized construction information preset and generated by the user:

receiving a construction request sent by a constructor through an intelligent terminal, wherein the construction request carries construction information used for making a construction application, and the construction information comprises a construction request place and construction request time corresponding to the construction request place;

generating and executing a permission acquisition instruction according to the construction information, wherein the permission acquisition instruction is used for pushing the construction information to an intelligent terminal of a user;

acquiring the construction authority, wherein the construction authority is generated by a user according to the construction information;

and generating a new command and executing the new command according to the construction permission, wherein the new command is used for newly generating corresponding authorized construction information according to the construction request site and the construction request time corresponding to the construction request site.

3. The vibration environment detection method according to claim 1, further comprising, after the step of acquiring actual construction information:

acquiring a construction completion site;

determining an authorized construction site corresponding to the construction completion site according to the construction completion site;

according to the determined authorized construction site, extracting authorized construction time corresponding to the determined authorized construction site;

and generating a deleting instruction according to the determined authorized construction site and the extracted authorized construction time, wherein the deleting instruction is used for deleting the authorized construction site and the corresponding authorized construction time.

4. The method according to claim 1, further comprising, after the step of generating and executing the warning command:

acquiring abnormal construction information, wherein the abnormal construction information comprises an abnormal construction site and abnormal construction time corresponding to the abnormal construction site;

and pushing the abnormal construction information to an intelligent terminal of a user.

5. The method for detecting a vibration environment according to claim 4, further comprising, after the step of pushing the abnormal construction information to the user intelligent terminal:

acquiring an abnormal construction monitoring video;

and pushing the abnormal construction monitoring video to an intelligent terminal of a user.

6. The method of claim 1, further comprising:

calling a preset maintenance period, wherein the preset maintenance period is generated by presetting of a user;

acquiring the actual working time according to the preset maintenance period;

judging whether the actual working time length reaches the preset maintenance period or not according to the preset maintenance period and the actual working time length;

if the judgment result is yes, generating a prompt instruction and executing the prompt instruction, wherein the prompt instruction is used for sending prompt information to an intelligent terminal of a user;

and generating a zero clearing instruction and executing, wherein the zero clearing instruction is used for controlling the actual working time length to be cleared and accumulated again.

7. The method of claim 1, further comprising:

acquiring an abnormal state of a detection point;

acquiring corresponding detection point positions according to the abnormal states of the detection points;

and generating and executing a maintenance instruction according to the position of the detection point and the abnormal state of the detection point, wherein the maintenance instruction is used for pushing a maintenance signal to an intelligent terminal of a user.

8. A vibratory environment detection system, comprising:

the construction authorization system comprises an authorization construction information acquisition module (1) and a construction authorization processing module, wherein the authorization construction information acquisition module is used for acquiring authorization construction information preset and generated by a user, and the authorization construction information comprises an authorization construction place and authorization construction time corresponding to the authorization construction place;

the actual construction information acquisition module (2) is used for acquiring actual construction information, and the actual construction information comprises an actual construction site and actual construction time corresponding to the actual construction site;

an authorized construction site determining module (3) for determining an authorized construction site corresponding to the actual construction site according to the actual construction site;

the authorized construction time extracting module (4) is used for extracting authorized construction time corresponding to the determined authorized construction place according to the determined authorized construction place;

the authorization information comparison and judgment module (5) is used for judging whether the actual construction time is consistent with the extracted authorized construction time or not according to the extracted authorized construction time;

and the alarm instruction generating module (6) is used for generating and executing an alarm instruction, and the alarm instruction is used for pushing an alarm signal to the intelligent terminal of the user.

9. The utility model provides an intelligent terminal which characterized in that: comprising a memory and a processor, said memory having stored thereon a computer program which can be loaded by the processor and which performs the method of any of claims 1 to 7.

10. A computer-readable storage medium characterized by: a computer program which can be loaded by a processor and which performs the method according to any one of claims 1 to 7.

Images