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CN115310798A - Safety supervision early warning method and monitoring system for rail transit electromechanical installation project - Google Patents

Safety supervision early warning method and monitoring system for rail transit electromechanical installation project Download PDF

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CN115310798A
CN115310798A CN202210911653.XA CN202210911653A CN115310798A CN 115310798 A CN115310798 A CN 115310798A CN 202210911653 A CN202210911653 A CN 202210911653A CN 115310798 A CN115310798 A CN 115310798A
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information
image information
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高峰
陆亚军
孙水泉
孙涛
李莉莉
李克材
张承春
符昊
唐效国
芦宏宇
张跃
王伟华
夏中国
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China Railway Jinan Engineering Construction Supervision Co Ltd
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Abstract

The application relates to a safety supervision early warning method and a monitoring system for rail transit electromechanical installation engineering, which belong to the technical field of rail transit electromechanical installation, and comprise the steps of acquiring first image information of an installation position of electromechanical equipment of a certain type during construction; and then searching whether second image information matched with the first image information exists in a preset nonstandard type library, if so, acquiring construction safety standard terms pre-associated with the second image information, and outputting first early warning information. During construction, first image information of the electromechanical equipment installation position can be obtained, second image information matched with the first image information is searched in the non-standard type library, if the second image information is searched, construction safety standard terms related to the second image information are obtained, and then first early warning information is output, so that early warning can be performed on installation personnel in time, the installation personnel can adjust in time, and potential safety hazards are reduced.

Description

Safety supervision early warning method and monitoring system for rail transit electromechanical installation project
Technical Field
The application relates to the technical field of rail transit electromechanical installation, in particular to a rail transit electromechanical installation engineering safety supervision early warning method and a rail transit electromechanical installation engineering safety supervision early warning monitoring system.
Background
At present, in the rail transit construction, electromechanical equipment (for example, air conditioning equipment, glass, elevator and the like) needs to be installed. In the process of mounting the electromechanical equipment, the inventor finds that before construction, an installer is emphasized to mount according to construction requirements; however, after construction, it is often found that part of electromechanical equipment still exists, and the installation does not meet the standard, so that potential safety hazards exist.
Disclosure of Invention
In order to reduce the existence of installation hidden danger, the application provides a safety supervision early warning method and a monitoring system for rail transit electromechanical installation engineering.
In a first aspect, the application provides a safety supervision and early warning method for rail transit electromechanical installation engineering, which adopts the following technical scheme:
a rail transit electromechanical installation engineering safety supervision early warning method comprises the following steps:
during construction, acquiring first image information of a mounting position of certain type of electromechanical equipment;
searching whether second image information matched with the first image information exists in a preset non-standard type library, and if yes, acquiring construction safety standard terms pre-associated with the second image information;
and outputting first early warning information based on the standard terms of the construction safety standard.
By adopting the technical scheme, the first image information of the electromechanical equipment installation position can be acquired during construction, the second image information matched with the first image information is searched in the non-standard type library, if the second image information is searched, the construction safety standard terms related to the second image information are acquired, and the first early warning information is output, so that early warning can be performed on installation personnel in time, the installation personnel can adjust in time, and the potential safety hazard is reduced.
Optionally, the early warning method further includes:
if the second image information matched with the first image information is not found in the non-standard type library, searching whether third image information matched with the first image information is found in a preset standard type library, and if not, outputting a supplement request;
acquiring the first image information and an identifier based on the supplement request;
saving the first image information in the non-standard type library;
calling a clause corresponding to the identifier in the construction safety specification standard;
associating the terms with the first image information.
By adopting the technical scheme, if the second image information matched with the first image information cannot be searched in the non-standard type library, the electromechanical installation is possibly standard, and the electromechanical installation is also possibly not included in the non-standard type library; therefore, whether third image information matched with the first image information exists or not needs to be searched in the standard type library, if not, the electromechanical device is installed in an abnormal mode, but the third image information is not included in the non-standard type library, so that a supplement request is output, a safety supervisor can upload the first image information and edit an identifier based on the supplement request, the first image information is saved in the non-standard type library, the identifier is recognized, a term corresponding to the identifier in the construction safety standard is called, and the term is associated with the first image information.
Optionally, during the construction, the step of obtaining the first image information of the installation place of the certain type of electromechanical device includes:
acquiring first equipment information of certain type of electromechanical equipment to be installed, wherein the first equipment information comprises the type of the equipment to be installed and the quantity of the equipment to be installed;
acquiring second equipment information of the certain type of electromechanical equipment which actually enters a construction site, wherein the second equipment information comprises an actual equipment model and an actual installation number;
and judging whether the second equipment information is the same as the first equipment information or not, and if not, outputting second early warning information.
By adopting the technical scheme, electromechanical equipment to be installed can be controlled before construction, and the equipment model and the equipment quantity are prevented from being mistaken, so that the construction efficiency is improved, and the potential safety hazard is reduced.
Optionally, during the construction, the step before acquiring the first image information of the installation site of the certain type of electromechanical device further includes:
modeling a construction site in advance to simulate a constructed scene;
obtaining a plane graph based on the modeling, wherein all the electromechanical devices installed in the plane graph are presented in the form of coordinate points;
converting the coordinate points into longitude and latitude;
acquiring the type of equipment to which electromechanical equipment is to be installed;
and outputting prompt information based on the equipment type of the electromechanical equipment to be installed and the longitude and latitude.
By adopting the technical scheme, the construction personnel can quickly reach the installation position based on the type of the electromechanical equipment to be installed, so that the construction efficiency is improved.
Optionally, the early warning method further includes:
after construction is completed, obtaining the safety score of a constructor;
generating a safety ranking list based on the safety score;
and circularly displaying the constructors in the first three of the safety ranking lists based on the safety ranking lists.
By adopting the technical scheme, the safe ranking list is set, and the constructors in the first three of the safe ranking lists are displayed in a circulating mode, so that the constructors with lower safe scores can be stimulated, and the constructors with lower safe scores can subsequently construct according to the construction safety standard as far as possible.
Optionally, the early warning method further includes:
acquiring equipment maintenance information and equipment operation information of certain type of electromechanical equipment;
judging whether the equipment runs well or not based on the equipment running information, and if so, acquiring the times of the equipment maintenance information;
and judging whether the times exceed a preset time threshold value, and if so, outputting a maintenance alarm signal.
By adopting the technical scheme, the purpose of judging the equipment maintenance frequency and the equipment running condition is that if the equipment running condition is good and the frequency of the equipment maintenance information is lower than the frequency threshold value, the equipment maintenance information is possibly sent by mistake, and if the equipment running condition is poor or the frequency of the equipment maintenance information exceeds the frequency threshold value, the equipment fault is indicated, so that a maintenance alarm signal is output.
In a second aspect, the application provides a rail transit electromechanical installation engineering safety monitoring system, which adopts the following technical scheme:
a rail transit electromechanical installation engineering safety monitoring system includes:
the image acquisition module is used for acquiring first image information of a certain type of electromechanical equipment installation position during construction;
the searching module is used for searching whether second image information matched with the first image information exists in a preset nonstandard type library, and if so, obtaining construction safety standard terms associated with the second image information in advance;
and the early warning information output module outputs first early warning information based on the construction safety standard terms.
By adopting the technical scheme, the image acquisition module can acquire the first image information of the electromechanical equipment installation position during construction, the search module can search the second image information matched with the first image information in the non-standard type library, if the second image information is searched, the construction safety standard term associated with the second image information is acquired, and the early warning information output module can output the first early warning information, so that early warning can be performed on installation personnel in time, the installation personnel can adjust in time, and the potential safety hazard is reduced.
Optionally, the monitoring system further includes:
a supplement request output module for outputting supplement requests;
an image and identifier acquisition module that acquires the first image information and the identifier based on the supplement request;
the storage module is used for storing the first image information in the non-standard type library;
an association module for associating the clause with the first image information;
the searching module is used for searching whether third image information matched with the first image information is found in a preset standard type library when the second image information matched with the first image information is not found in the non-standard type library; the searching module is also used for searching a term corresponding to the identifier in a construction safety specification standard.
By adopting the technical scheme, if the searching module cannot search the second image information matched with the first image information in the non-standard type library, the electromechanical installation is possibly standard and is also possibly not included in the non-standard type library; therefore, the searching module is required to search whether third image information matched with the first image information exists in the standard type library, if not, the electromechanical device is installed in an abnormal mode, but the third image information is not included in the non-standard type library, so that the supplement request output module outputs a supplement request, based on the supplement request, a safety supervisor can upload the first image information and edit the identifier, and the image and identifier acquisition module acquires the first image information and the identifier; the storage module stores the first image information in an irregular type library, the searching module searches a clause corresponding to the identifier in the construction safety standard based on the identifier, and the associating module associates the clause with the first image information.
Optionally, the monitoring system further includes:
the system comprises a first equipment information acquisition module, a second equipment information acquisition module and a first equipment information processing module, wherein the first equipment information acquisition module is used for acquiring first equipment information of certain type of electromechanical equipment to be installed, and the first equipment information comprises the type of the equipment to be installed and the quantity of the equipment to be installed;
the second equipment information acquisition module is used for acquiring second equipment information of the certain type of electromechanical equipment which actually enters the construction site, and the second equipment information comprises an actual equipment model and an actual installation number;
and the judging module is used for judging whether the second equipment information is the same as the first equipment information or not, and if not, the early warning information output module outputs second early warning information.
By adopting the technical scheme, electromechanical equipment to be installed can be controlled before construction, and the equipment model and the equipment quantity are prevented from being mistaken, so that the construction efficiency is improved, and the potential safety hazard is reduced.
Optionally, the monitoring system further includes:
the modeling module is used for modeling a construction site in advance so as to simulate a constructed scene;
a plan obtaining module, which obtains a plan based on the modeling, wherein the electromechanical devices installed in the plan are presented in the form of coordinate points;
the coordinate conversion module is used for converting the coordinate points into longitude and latitude;
the equipment type acquisition module is used for acquiring the equipment type of the electromechanical equipment to be installed;
and the prompt information output module outputs prompt information based on the equipment type of the electromechanical equipment to be installed and the longitude and latitude.
In summary, the present application has at least the following beneficial effects:
1. by acquiring the first image information, searching the second image information matched with the first image information in the preset irregular type library, and outputting the first early warning information under the condition that the second image information is matched with the first image information, the installation personnel can be warned in time, so that the installation personnel can adjust in time, and the potential safety hazard is reduced.
2. If the image information matched with the first image information cannot be searched in both the non-standard type library and the standard type library, outputting a supplement request, storing the first image information into the non-standard type library based on the supplement request, and associating the first image information with a corresponding term in the construction safety standard, so that the non-standard type library is enriched, and the accuracy of subsequent construction searching is improved.
Drawings
FIG. 1 is a block flow diagram of one embodiment of a method of the present application;
FIG. 2 is a block flow diagram of an embodiment of steps that need to be performed before S110;
FIG. 3 is a block flow diagram of another embodiment of the steps that need to be performed before S110;
FIG. 4 is a block flow diagram of another implementation of a method embodiment of the present application;
FIG. 5 is a block flow diagram of another implementation of a method embodiment of the present application;
FIG. 6 is a block diagram of an embodiment of a system of the present application;
FIG. 7 is a block diagram of another implementation of a system embodiment of the present application;
fig. 8 is a block diagram of another embodiment of the system of the present application.
Description of the reference numerals: 101. an image acquisition module; 102. a searching module; 103. an early warning information output module; 104. a supplement request output module; 105. an image and identifier acquisition module; 106. a storage module; 107. a correlation module; 108. a first device information acquisition module; 109. a second device information acquisition module; 110. a judgment module; 111. a modeling module; 112. a plan view acquisition module; 113. a coordinate conversion module; 114. a device type acquisition module; 115. a prompt information output module; 116. a safe score acquisition module; 117. a security ranking list generation module; 118. a display module; 119. an equipment maintenance information acquisition module; 120. an equipment operation information acquisition module; 121. a state judgment module; 122. the equipment maintenance information frequency acquisition module; 123. a frequency judging module; 124. and an alarm module.
Detailed Description
In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to fig. 1 to 8 of the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
The embodiment of the application discloses a safety supervision early warning method for rail transit electromechanical installation engineering. Referring to fig. 1, as an embodiment of the warning method, the warning method may include steps S110 to S130:
s110, acquiring first image information of a mounting position of certain type of electromechanical equipment during construction;
specifically, a camera may be installed at the electromechanical device installation site, and an image at the electromechanical device installation site may be obtained through the camera after the electromechanical device installation is completed; or shooting by a safety supervisor during patrol and uploading after shooting.
S120, searching whether second image information matched with the first image information exists in a preset non-standard type library, and if yes, acquiring construction safety standard terms pre-associated with the second image information;
specifically, the irregular type library stores images with irregular historical installation, and the images are associated with electromechanical equipment types and construction safety regulation terms. Taking an air conditioner as an example, a plurality of construction images with irregular installation of the air conditioner are stored in the irregular type library, one or more images may correspond to a term of the construction safety standard, and the term may be "place avoiding existence of combustible gas" or the like.
S130, outputting first early warning information based on the standard terms of the construction safety standard; the first warning information may be a "construction safety standard term" corresponding to the broadcast second image information.
In performing step S120, steps S121-S125 may be performed:
s121, if the second image information matched with the first image information is not found in the non-standard type library, searching a preset standard type library for third image information whether matched with the first image information or not, and if not, outputting a supplement request;
specifically, the specification type library stores images of historical electromechanical device installation specifications.
S122, acquiring first image information and an identifier based on the supplement request;
specifically, the security manager may upload the first image information to an irregular type library based on the supplement request, and identify the first image information; for example, the identifier may be a serial number of the term, or may be a keyword in the corresponding term.
S123, storing the first image information in an irregular type library;
s124, calling a term corresponding to the identifier in the construction safety specification standard;
s125, associating the clause with the first image information.
Specifically, after the security manager uploads the first image information and edits the identifier, the system recognizes the identifier, thereby calling the corresponding clause and associating the clause with the first image information.
It should be noted that S120-S130 are juxtaposed with S121-S125.
Referring to fig. 2, before step S110, the steps of S101-S103 may be performed:
s101, acquiring first equipment information of certain type of electromechanical equipment to be installed, wherein the first equipment information comprises the type of the equipment to be installed and the quantity of the equipment to be installed;
specifically, the first device information can be uniformly entered into the system by a security supervisor.
S102, acquiring second equipment information of certain type of electromechanical equipment actually entering a construction site, wherein the second equipment information comprises an actual equipment model and an actual installation number;
specifically, each electromechanical device is marked with a two-dimensional code, and the two-dimensional code contains second device information; when the electromechanical equipment enters the construction site, the electromechanical equipment is scanned, so that second equipment information is obtained, and the number of the electromechanical equipment of the same type entering the construction site is obtained according to the obtained times.
S103, judging whether the second equipment information is the same as the first equipment information, and if not, outputting second early warning information.
Specifically, the model of the actual device is compared with the model of the device to be installed, the number of the actual devices is compared with the number of the devices to be installed, and second early warning information is output as long as one of the actual devices and the number of the devices to be installed are not matched.
Referring to fig. 3, before step S110, steps S104-S108 may also be performed:
s104, modeling a construction site in advance to simulate a constructed scene;
specifically, the construction site is modeled in advance by modeling software, such as CAD, etc., so that a constructed scene will be simulated.
S105, obtaining a plane graph based on modeling, wherein all the electromechanical devices installed in the plane graph are presented in a coordinate point form;
s106, converting the coordinate points into longitude and latitude;
s107, acquiring the type of the electromechanical equipment to be installed;
specifically, the two-dimensional code can be obtained by scanning a two-dimensional code on a device; the device type may include a kind of the device and a number of a similar device. The different numbers represent different installation positions of the equipment, namely different longitudes and latitudes.
And S108, outputting prompt information based on the equipment type and the longitude and latitude of the electromechanical equipment to be installed.
It should be noted that the execution sequence of S101-S103 and S104-S108 is not consecutive.
Referring to fig. 4, as another embodiment of the warning method, the warning method may further include steps S210 to S230:
s210, after construction is finished, obtaining safety scores of constructors;
specifically, the safety score can be scored by a safety supervision staff and uploaded, and the scoring rule can be that the score is scored according to the number of times of occurrence of irregular installation or one or more dimensions such as installation efficiency.
S220, generating a safety ranking list based on the safety score;
in particular, the security leaderboard can be in order of high to low security scores, or in order of low to high security scores.
And S230, circularly displaying the constructors in the first three of the safety ranking lists based on the safety ranking lists.
Referring to fig. 5, as another embodiment of the warning method, the warning method may further include the steps of S310-S330:
s310, acquiring equipment maintenance information and equipment operation information of certain type of electromechanical equipment;
specifically, a two-dimensional code is pasted at the installation position of the electromechanical equipment, an equipment maintenance editing interface can be accessed by scanning the two-dimensional code, and the two-dimensional code is sent after editing is completed, so that the equipment maintenance information of the equipment can be obtained; the device operation information may be monitored by a series of sensors, such as a tachometer sensor to detect rotational speed of the device, a temperature sensor to detect temperature of the device, and the like.
S320, judging whether the equipment runs well or not based on the equipment running information, and if so, acquiring the times of equipment maintenance information;
specifically, when the device is running, the monitored data needs to be compared with the corresponding data threshold, so as to determine whether the device is running well. For example, the rotation speed exceeds the maximum rotation speed threshold value, or the rotation speed is lower than the minimum rotation speed threshold value, which means that the equipment is not operated well.
S330, judging whether the times exceed a preset time threshold, and if so, outputting a maintenance alarm signal.
The implementation principle of the embodiment is as follows:
acquiring first equipment information of certain type of electromechanical equipment to be installed, acquiring second equipment information of certain type of electromechanical equipment actually entering a construction site, judging whether the second equipment information is the same as the first equipment information, and if not, outputting second early warning information;
then, modeling is carried out on a construction site in advance to simulate a constructed scene, and a plan is obtained based on the modeling, wherein all the electromechanical devices installed in the plan are presented in a coordinate point form; then converting the coordinate points into longitude and latitude, and acquiring the equipment type of the electromechanical equipment to be installed, thereby outputting prompt information based on the equipment type and the longitude and latitude of the electromechanical equipment to be installed;
during construction, first image information of an installation position of certain type of electromechanical equipment is obtained, whether second image information matched with the first image information exists or not is searched in an irregular type library, if yes, construction safety standard terms pre-associated with the second image information are obtained, and then first early warning information is output based on the construction safety standard terms.
Based on the early warning method, another embodiment of the application discloses a safety monitoring system for rail transit electromechanical installation engineering. Referring to fig. 6, as an embodiment of the monitoring system, the monitoring system may include:
the image acquisition module 101 is used for acquiring first image information of a certain type of electromechanical equipment installation place during construction; the image acquiring module 101 may be a camera or a video camera.
The searching module 102 is configured to search whether second image information matched with the first image information exists in a preset non-standard type library, and if yes, obtain a construction safety standard term pre-associated with the second image information;
and the early warning information output module 103 outputs first early warning information based on the standard terms of the construction safety standard. The warning information output module 103 may be a speaker.
The monitoring system may further include:
a supplement request output module 104 for outputting a supplement request;
an image and identifier acquisition module 105 that acquires first image information and an identifier based on the supplement request;
a saving module 106, configured to save the first image information in an irregular type library;
an association module 107 for associating the terms with the first image information;
the searching module 102 is further configured to search, when the second image information matching the first image information is not found in the non-canonical type library, third image information whether matching the first image information is found in a preset canonical type library; the lookup module 102 is further configured to lookup a term corresponding to the identifier in the construction safety specification standard.
The monitoring system may further include:
a first device information obtaining module 108, configured to obtain first device information of a certain type of electromechanical device that should be installed, where the first device information includes a model number and an installation amount of the device that should be installed;
the second equipment information acquiring module 109 is configured to acquire second equipment information of a certain type of electromechanical equipment actually entering a construction site, where the second equipment information includes an actual equipment model and an actual installation number;
the determining module 110 is configured to determine whether the second device information is the same as the first device information, and if not, the warning information output module 103 outputs the second warning information.
The monitoring system may further include:
the modeling module 111 is used for modeling a construction site in advance so as to simulate a constructed scene;
a plan view obtaining module 112 that obtains plan views, each of the electromechanical devices mounted in the plan views being represented in the form of coordinate points, based on the modeling;
a coordinate conversion module 113, configured to convert the coordinate points into longitude and latitude;
a device type obtaining module 114, configured to obtain a device type to which the electromechanical device should be installed;
and the prompt information output module 115 outputs prompt information based on the equipment type and longitude and latitude of the electromechanical equipment to be installed.
Referring to fig. 7, as another embodiment of the monitoring system, the monitoring system may further include:
a safe score obtaining module 116, configured to obtain a safe score of a constructor after construction is completed;
the safe ranking list generating module 117 generates a safe ranking list based on the safe scores;
and the display module 118 is used for circularly displaying the constructors in the first three of the safety ranking lists based on the safety ranking lists. The display module 118 may be a display screen.
Referring to fig. 8, as another embodiment of the monitoring system, the monitoring system may further include:
an equipment maintenance information acquisition module 119 for acquiring certain types of equipment maintenance information;
an apparatus operation information obtaining module 120, configured to obtain apparatus operation information of the apparatus;
a state judgment module 121, which judges whether the equipment is operating well based on the equipment operation information;
an equipment maintenance information frequency acquisition module 122, configured to acquire the frequency of the equipment maintenance information when the equipment is in a good running state;
a number judging module 123, configured to judge whether the number of times exceeds a preset number threshold;
and the alarm module 124 outputs a maintenance alarm signal when the times exceed the time threshold.
The implementation principle of the embodiment is as follows:
the first equipment information acquisition module 108 acquires first equipment information of certain type of electromechanical equipment to be installed, the second equipment information acquisition module 109 acquires second equipment information of certain type of electromechanical equipment actually entering a construction site, the judgment module 110 judges whether the second equipment information is the same as the first equipment information, and if not, the early warning information output module 103 outputs second early warning information;
then, a modeling module 111 models a construction site in advance to simulate a constructed scene, a plan view obtaining module 112 obtains a plan view based on modeling, and all the electromechanical devices installed in the plan view are presented in a coordinate point form; then the coordinate conversion module 113 converts the coordinate points into longitude and latitude, the device type acquisition module 114 acquires the device type of the electromechanical device to be installed, and the device type acquisition module 114 outputs prompt information based on the device type and the longitude and latitude of the electromechanical device to be installed;
during construction, the image acquisition module 101 acquires first image information of a mounting position of certain type of electromechanical equipment, the search module 102 searches whether second image information matched with the first image information exists in an irregular type library, if yes, construction safety standard terms pre-associated with the second image information are acquired, and then the early warning information output module 103 outputs first early warning information based on the construction safety standard terms.
The foregoing is a preferred embodiment of the present application and is not intended to limit the scope of the present application in any way, and any features disclosed in this specification (including the abstract and drawings) may be replaced by alternative features serving equivalent or similar purposes, unless expressly stated otherwise. That is, unless expressly stated otherwise, each feature is only an example of a generic series of equivalent or similar features.

Claims (10)

1. A rail transit electromechanical installation engineering safety supervision early warning method is characterized by comprising the following steps:
during construction, acquiring first image information of a mounting position of certain type of electromechanical equipment;
searching whether second image information matched with the first image information exists in a preset non-standard type library, and if so, acquiring construction safety standard terms pre-associated with the second image information;
and outputting first early warning information based on the standard terms of the construction safety standard.
2. The rail transit electromechanical installation engineering safety supervision and early warning method according to claim 1, characterized in that the early warning method further comprises:
if the second image information matched with the first image information is not found in the non-standard type library, searching whether third image information matched with the first image information is found in a preset standard type library, and if not, outputting a supplement request;
acquiring the first image information and an identifier based on the supplement request;
saving the first image information in the non-standard type library;
calling a term corresponding to the identifier in the construction safety standard;
associating the terms with the first image information.
3. The rail transit electromechanical installation project safety supervision and early warning method according to claim 2, wherein the step of obtaining the first image information of the installation place of a certain type of electromechanical equipment at the time of construction comprises:
acquiring first equipment information of certain type of electromechanical equipment to be installed, wherein the first equipment information comprises the type of the equipment to be installed and the quantity of the equipment to be installed;
acquiring second equipment information of the certain type of electromechanical equipment which actually enters a construction site, wherein the second equipment information comprises an actual equipment model and an actual installation number;
and judging whether the second equipment information is the same as the first equipment information, and if not, outputting second early warning information.
4. The rail transit electromechanical installation project safety supervision and early warning method according to claim 2, wherein the step of obtaining the first image information of the installation site of a certain type of electromechanical equipment during construction further comprises:
modeling a construction site in advance to simulate a constructed scene;
obtaining a plan view based on the modeling, wherein all the electromechanical devices installed in the plan view are presented in the form of coordinate points;
converting the coordinate points into longitude and latitude;
acquiring the type of equipment to which electromechanical equipment is to be installed;
and outputting prompt information based on the equipment type of the electromechanical equipment to be installed and the longitude and latitude.
5. The rail transit electromechanical installation engineering safety supervision and early warning method according to claim 3 or 4, characterized in that the early warning method further comprises:
after construction is completed, obtaining the safety score of a constructor;
generating a safety ranking list based on the safety score;
and circularly displaying the constructors in the first three of the safety ranking lists based on the safety ranking lists.
6. The rail transit electromechanical installation engineering safety supervision and early warning method according to claim 5, characterized in that the early warning method further comprises:
acquiring equipment maintenance information and equipment operation information of certain type of electromechanical equipment;
judging whether the equipment runs well or not based on the equipment running information, and if so, acquiring the times of the equipment maintenance information;
and judging whether the times exceed a preset time threshold value, and if so, outputting a maintenance alarm signal.
7. The utility model provides a rail transit electromechanical installation engineering safety monitoring system which characterized in that includes:
the image acquisition module (101) is used for acquiring first image information of a certain type of electromechanical equipment installation place during construction;
the searching module (102) is used for searching whether second image information matched with the first image information exists in a preset non-standard type library, and if yes, construction safety standard terms pre-associated with the second image information are obtained;
and the early warning information output module (103) outputs first early warning information based on the construction safety standard terms.
8. The rail transit electromechanical installation engineering safety monitoring system of claim 7, further comprising:
a supplement request output module (104) for outputting a supplement request;
an image and identifier acquisition module (105) that acquires the first image information and identifier based on the supplement request;
a saving module (106) for saving the first image information in the non-canonical type library;
an association module (107) for associating the terms with the first image information;
the searching module (102) is configured to search, when the second image information matched with the first image information is not found in the non-canonical type library, whether third image information matched with the first image information is found in a preset canonical type library; the lookup module (102) is further configured to lookup a term corresponding to the identifier in a construction safety code standard.
9. The rail transit electromechanical installation engineering safety monitoring system of claim 8, further comprising:
the system comprises a first equipment information acquisition module (108) for acquiring first equipment information of certain type of electromechanical equipment to be installed, wherein the first equipment information comprises the type of the equipment to be installed and the quantity of the equipment to be installed;
the second equipment information acquisition module (109) is used for acquiring second equipment information of the certain type of electromechanical equipment which actually enters the construction site, and the second equipment information comprises an actual equipment model and an actual installation number;
and the judging module (110) is used for judging whether the second equipment information is the same as the first equipment information, and if not, the early warning information output module (103) outputs second early warning information.
10. The rail transit electromechanical installation engineering safety monitoring system of claim 9, further comprising:
the modeling module (111) is used for modeling a construction site in advance so as to simulate a constructed scene;
a plan obtaining module (112) for obtaining a plan, based on the modeling, in which the electromechanical devices installed in the plan are each represented in the form of coordinate points;
a coordinate conversion module (113) for converting the coordinate points into longitude and latitude;
the device type acquisition module (114) is used for acquiring the device type of the electromechanical device to be installed;
and the prompt information output module (115) outputs prompt information based on the equipment type of the electromechanical equipment to be installed and the longitude and latitude.
CN202210911653.XA 2022-07-30 2022-07-30 Safety supervision early warning method and monitoring system for rail transit electromechanical installation project Pending CN115310798A (en)

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Application publication date: 20221108