CN113283716A - Equipment operation and maintenance management system for smart city - Google Patents
Equipment operation and maintenance management system for smart city Download PDFInfo
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- CN113283716A CN113283716A CN202110506915.XA CN202110506915A CN113283716A CN 113283716 A CN113283716 A CN 113283716A CN 202110506915 A CN202110506915 A CN 202110506915A CN 113283716 A CN113283716 A CN 113283716A
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Abstract
The invention relates to the field of smart city construction, in particular to an equipment operation and maintenance management system for a smart city, which comprises an online management system and an offline management system; the online management system comprises the data acquisition of the existing equipment, the manufacture of an information model, the characterization of the existing equipment and the differentiation of equipment to be processed, and the offline management system comprises a regional operation and maintenance unit, an information control center, operation and maintenance information acquisition and equipment installation, equipment maintenance, equipment removal and cloud self-check; through population information acquisition, the quantity and the types of certain civil equipment are adjusted according to the population types of various regions of a city, so that the installation planning of the equipment is more reasonable.
Description
Technical Field
The invention relates to the field of smart city construction, in particular to an equipment operation and maintenance management system for a smart city.
Background
Modern society has begun to enter the information-oriented era, in the near future, the development and planning of cities must be fully integrated with the new-generation information technology, a new-generation smart city is created, the system and service of the cities are communicated and integrated, the efficiency of resource utilization is improved, city management and service are optimized, the quality of life of citizens is improved, the smart city is realized by various devices including but not limited to visual collection and identification, various sensors, wireless positioning systems, RFID, bar code identification, visual labels and other top technologies, an intelligent visual Internet of things is constructed, the elements of the urban complex are intelligently sensed, automatic data collection is carried out, the aspects of commerce, office, residence, hotel, exhibition, catering, conference, entertainment and traffic, lighting, information communication and display and the like in the urban complex are covered, the collected data is visualized and normalized, and the manager can perform visual urban complex management.
The smart city is realized inseparably from a series of devices, and some accidents are inevitable under the condition of a huge base number of the devices, so that the device operation and maintenance management system for the smart city is provided.
Disclosure of Invention
The present invention is directed to a system for managing operation and maintenance of smart city devices, so as to solve the above problems.
In order to achieve the purpose, the equipment operation and maintenance management system for the smart city comprises an online management system and an offline management system;
the online management system comprises the existing equipment data acquisition, the information model manufacturing, the existing equipment characterization and the equipment differentiation to be processed, wherein the existing equipment data acquisition acquires the existing equipment positioning and model information in a city, the information model manufacturing establishes a city three-dimensional touch model according to the road and building information in the city, the existing equipment characterization inputs the relevant information acquired according to the existing equipment data acquisition into the city three-dimensional touch model and gives the equipment characteristics by adjusting color matching, thickening, display priority level adjustment and the like, and the equipment differentiation to be processed gives the equipment to be processed striking characteristics by adjusting color matching, special patterns, display priority level adjustment and the like based on the city three-dimensional touch model;
the offline management system comprises an area operation and maintenance unit, an information control center, an operation and maintenance information acquisition and equipment installation, an equipment maintenance, an equipment dismantling device and a cloud self-check, wherein the area operation and maintenance unit builds a plurality of offline service network points according to urban population distribution, the information control center receives and stores related information of the existing equipment, and the operation and maintenance information acquisition receives user feedback through an online and offline mode, transmits the user feedback to the information control center and responds according to the user feedback and offline service network points.
As a preferred technical solution of the present invention, the data collection of the existing device further includes three-dimensional positioning information collection and data arrangement and backup, the three-dimensional positioning information collection records related data of the existing device regarding the ground height and the number of floors in the building, and the data arrangement and backup arranges and classifies the data collected by the existing device according to the information of the city partition, the street and the building, and sends the data to the information control center for storage.
As a preferred technical solution of the present invention, the equipment installation includes population information collection and equipment classified installation, the population information collection respectively counts information such as population number, age, population mobility heat, demand, and the like in units of buildings in the operation and maintenance range of each offline service site in the population information collection, and the equipment classified installation purchases and installs corresponding equipment of a category required in a city based on the population information collection statistical data.
As a preferred technical solution of the present invention, in the regional operation and maintenance unit, the offline service network point construction takes concentrated population areas in a city as a path to be constructed in an outward diffusion manner, and the distance between offline service network points is determined according to the current population density and the number of devices in the network point area.
The equipment maintenance comprises cloud deployment, a maintenance terminal and operation and maintenance information receiving and feedback, the cloud deployment receives a maintenance instruction from an information control center, deployment personnel and materials inquire the position of equipment to be processed from a three-dimensional urban model through the maintenance terminal, and the operation and maintenance information receiving and feedback feeds back a maintenance result after the maintenance and is used for receiving the deployment information before the maintenance.
As a preferred technical solution of the present invention, the equipment removal includes a usage record and a usage life, the usage record queries the recent usage time, frequency and user information of the equipment, determines whether the equipment is idle, and if there is no regular user, the equipment is moved to a necessary section according to the equipment type, usage and user requirement, the usage life compares the equipment with its usage life, and after the equipment reaches the usage life, the equipment is manually determined whether the equipment can be used continuously, and if necessary, the equipment is removed, and a qualified equipment of the same type is installed for replacement.
As a preferred technical scheme of the present invention, the cloud end self-inspection includes manual inspection and cloud end self-inspection, the manual inspection periodically and comprehensively inspects the equipment in a manual manner based on the equipment type and the installation place, and the cloud end self-inspection receives transmission information of each equipment from the cloud end through equipment maintenance to determine whether the equipment operates normally.
As a preferred technical solution of the present invention, the channel for receiving feedback in the operation and maintenance information collection includes an online-to-offline comprehensive manner such as a mailbox, a telephone, a letter, a network service hall, and the like, and the received information in the operation and maintenance information collection includes related information such as device loss reporting, device increment, device addition, and the like.
As a preferred technical solution of the present invention, the maintenance terminal is a portable networking terminal device customized by the operation and maintenance management system, and a signal transmission process of the portable networking terminal device is an encryption setting.
As a preferred technical solution of the present invention, the regional operation and maintenance unit includes a material allocation unit, the material allocation unit is disposed at a boundary or a nearest distance between the plurality of regional operation and maintenance units, and the material allocation unit stores standby equipment and delivers the equipment to a maintenance place in a region of the contacted regional operation and maintenance unit when needed.
Compared with the prior art, the invention has the beneficial effects that:
1. according to the intelligent city construction system, the equipment used in the intelligent city construction is subjected to installation, maintenance, dismantling, maintenance and other operations through the offline management system, and the setting of information model manufacturing is matched, so that an operator can conveniently and quickly know the position information of the equipment when an accident occurs, and the subsequent operation can be conveniently and quickly carried out;
2. through population information acquisition, the quantity of certain civil equipment such as fitness equipment, Internet of things vending machines and other equipment types and related details of the sold object types are adjusted according to the population types of various regions in a city, so that the installation planning of the equipment is more reasonable;
3. judging whether the equipment can be continuously used or not by setting the use record and the service life, dismantling the equipment if necessary, and installing qualified equipment of the same type for replacement; idle equipment resources are fully utilized, and the utilization rate of the existing equipment is improved;
4. through the setting of operation and maintenance information acquisition, relevant equipment can be processed in time according to resident experience feedback, so that the function of the smart city system is more comprehensive;
5. through the setting of material allotment unit, carry out the unified allocation to standby equipment, keep standby equipment total stock at normal level, avoid equipment to deposit in a large number and idle.
Drawings
FIG. 1 is a schematic diagram of the operation and maintenance management system for smart city according to the present invention;
FIG. 2 is a schematic diagram of a data collection workflow of an existing device in the device operation and maintenance management system for a smart city according to the present invention;
FIG. 3 is a schematic diagram illustrating an installation workflow of the equipment in the equipment operation and maintenance management system for smart cities according to the present invention;
FIG. 4 is a schematic diagram illustrating an equipment maintenance workflow in the equipment operation and maintenance management system for smart cities according to the present invention;
FIG. 5 is a schematic diagram illustrating a device removal process in the device operation and maintenance management system for smart cities according to the present invention;
FIG. 6 is a schematic diagram illustrating the operation process of equipment maintenance in the equipment operation and maintenance management system for smart cities according to the present invention.
In the figure:
100. an online management system;
110. acquiring data of the existing equipment; 111. collecting three-dimensional positioning information; 112. data sorting and backup;
120. manufacturing an information model; 130. existing equipment is characterized; 140. differentiation of devices to be processed;
200. an offline management system;
201. a regional operation and maintenance unit; 2011. a material allocation unit; 202. an information control center; 203. collecting operation and maintenance information;
210. equipment installation; 211. collecting population information; 212. installing equipment in a classified manner;
220. equipment maintenance; 221. cloud deployment; 222. maintaining the terminal; 223. receiving and feeding back operation and maintenance information;
230. dismantling equipment; 231. using the record; 232. the service life;
240. equipment maintenance; 241. manual patrol; 242. cloud self-checking.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. 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.
Referring to fig. 1-6, there is shown an apparatus operation and maintenance management system for smart city according to a preferred embodiment of the present invention, which includes an online management system 100 and an offline management system 200;
the online management system 100 comprises an existing device data acquisition 110, an information model manufacturing 120, an existing device characterization 130 and a to-be-processed device differentiation 140, wherein the existing device data acquisition 110 acquires the positioning and model information of existing devices in a city, the information model manufacturing 120 establishes a three-dimensional city touchable model according to the information of roads and buildings in the city, the existing device characterization 130 enters the three-dimensional city touchable model according to the related information acquired by the existing device data acquisition 110 and gives characteristics to the devices by adjusting color matching, thickening, display priority level adjustment and the like, and the to-be-processed device differentiation 140 gives a striking characteristic to the to-be-processed device by adjusting color matching, special patterns, display priority level adjustment and the like based on the three-dimensional city touchable model;
the offline management system 200 comprises a regional operation and maintenance unit 201, an information control center 202, an operation and maintenance information acquisition 203, an equipment installation 210, an equipment maintenance 220, an equipment removal 230 and a cloud self-check 240, wherein the regional operation and maintenance unit 201 builds a plurality of offline service network points according to urban population distribution, the information control center 202 receives and stores related information of existing equipment, and the operation and maintenance information acquisition 203 receives user feedback through an online mode and an offline mode, transmits the user feedback to the information control center 202 and responds according to the user feedback to connect the offline service network points.
The existing equipment data acquisition 110 further comprises three-dimensional positioning information acquisition 111 and data arrangement and backup 112, the three-dimensional positioning information acquisition 111 records relevant data of the existing equipment in the building about the ground height and the floor number, and the data arrangement and backup 112 arranges and classifies the data acquired by the existing equipment data acquisition 110 according to the information of city partitions, streets and buildings and sends the data to the information control center 202 for storage; when the maintenance work is unfolded, an operator can conveniently and quickly know the position information of the equipment, and the maintenance work is conveniently unfolded.
The equipment installation 210 comprises a population information collection 211 and an equipment classification installation 212, wherein the population information collection 211 respectively counts information such as population quantity, age, population mobility heat, demand and the like in an operation and maintenance range of each offline service network point based on each offline service network point in the population information collection 211 by taking each building as a unit, and the equipment classification installation 212 purchases and installs corresponding equipment of the category required in the city according to the statistical data of the population information collection 211; the quantity of certain civil equipment is adjusted according to the population types of various regions of the city, so that the equipment planning is more reasonable.
In the regional operation and maintenance unit 201, offline service network point construction is performed by using each population concentration region in a city as a route to be diffused outwards, and the distance between offline service network points is determined according to the current population density and the number of devices in the network point region; the cost is controlled, the normal operation of the network points is guaranteed, and the construction fund utilization efficiency is improved.
The equipment maintenance 220 comprises a cloud deployment 221, a maintenance terminal 222 and operation and maintenance information receiving and feedback 223, the cloud deployment 221 receives a maintenance instruction from the information control center 202, deployment personnel and materials inquire the position of equipment to be processed from the urban three-dimensional touch model through the maintenance terminal 222, and the operation and maintenance information receiving and feedback 223 feeds back a maintenance result after maintenance and is used for receiving deployment information before maintenance; maintenance personnel can quickly and briefly know the maintenance place during maintenance, the maintenance effect is recorded after maintenance, and the maintenance speed and quality are guaranteed.
The equipment dismantling 230 comprises a usage record 231 and a usage age 232, the usage record 231 is used for inquiring the recent usage time, the recent usage times and the user information of the equipment, judging whether the equipment is idle or not, if a user with regular use is lacked, the equipment is moved to a necessary place according to the type, the purpose and the user requirement of the equipment, the usage age 232 is compared with the service life of the equipment, after the equipment reaches the usage age of the equipment, whether the equipment can be continuously used or not is judged in a manual mode, the equipment is dismantled if necessary, and qualified equipment of the same type is installed for replacement; and idle equipment resources are fully utilized, and the utilization rate of the existing equipment is improved.
The cloud end self-inspection 240 comprises manual inspection 241 and cloud end self-inspection 240, the manual inspection 241 regularly and comprehensively inspects the equipment in a manual mode based on equipment types and installation places, and the cloud end self-inspection 242 receives transmission information of the equipment from the cloud end through the equipment maintenance 220 to judge whether the equipment runs normally or not; guarantee each equipment can normal operating, make wisdom city system operation stable.
The channel for receiving feedback in the operation and maintenance information collection 203 comprises an online and offline comprehensive mode such as a mailbox, a telephone, a letter, a network service hall and the like, and the received information in the operation and maintenance information collection 203 comprises related information such as equipment reporting loss, equipment increment, equipment increase and the like; according to resident experience feedback and timely processing related equipment, the smart city system is more comprehensive in function.
The maintenance terminal 222 is a portable networking terminal device customized by the operation and maintenance management system, and the signal transmission process of the portable networking terminal device is encryption setting; and the safety of the system operation and maintenance information is guaranteed.
The regional operation and maintenance unit 201 comprises a material allocation unit 2011, the material allocation unit 2011 is arranged at the junction or the nearest distance between the regional operation and maintenance units 201, and the material allocation unit 2011 stores standby equipment and conveys the equipment to the maintenance place in the region of the contacted regional operation and maintenance unit 201 when needed; the standby equipment does not need to be stored in the area operation and maintenance unit 201 respectively, and is uniformly distributed through the material allocation unit 2011, so that the total stock of the standby equipment is kept at a normal level, and the equipment is prevented from being stored and left unused in a large amount.
While the invention has been described in further detail in connection with specific embodiments thereof, it will be understood that the invention is not limited thereto, and that various other modifications and substitutions may be made by those skilled in the art without departing from the spirit of the invention, which should be considered to be within the scope of the invention as defined by the appended claims.
Claims (10)
1. The equipment operation and maintenance management system for the smart city comprises an online management system (100) and an offline management system (200);
the method is characterized in that: the online management system (100) comprises existing equipment data acquisition (110), information-based model manufacturing (120), existing equipment characterization (130) and equipment to be processed differentiation (140), the existing equipment data collection (110) collects existing equipment location and model information within a city, the informatization model manufacturing (120) establishes a city three-dimensional touchable model according to the information of roads and buildings in the city, the existing equipment characterization (130) is input into the city three-dimensional touchable model according to the relevant information collected by the existing equipment data collection (110), the equipment to be processed is endowed with characteristics by adjusting color matching, thickening, display priority level adjustment and other modes, and the differentiation (140) of the equipment to be processed is endowed with striking characteristics by adjusting color matching, special patterns, display priority level adjustment and other modes based on the urban three-dimensional touch model;
the offline management system (200) comprises an area operation and maintenance unit (201), an information control center (202), an operation and maintenance information acquisition unit (203), an equipment installation unit (210), an equipment maintenance unit (220), an equipment dismantling unit (230) and a cloud self-inspection unit (240), wherein the area operation and maintenance unit (201) builds a plurality of offline service network points according to urban population distribution, the information control center (202) receives and stores related information of existing equipment, and the operation and maintenance information acquisition unit (203) receives user feedback through an online and offline mode, transmits the user feedback to the information control center (202) and connects the offline service network points to make responses according to the user feedback.
2. The system of claim 1, wherein the smart city comprises: the existing equipment data acquisition (110) further comprises three-dimensional positioning information acquisition (111) and data arrangement and backup (112), the three-dimensional positioning information acquisition (111) records relevant data of the existing equipment in the building about the ground height and the floor number, and the data arrangement and backup (112) arranges and classifies the data acquired by the existing equipment data acquisition (110) according to the information of city partitions, streets and buildings and sends the data to the information control center (202) for storage.
3. The system of claim 1, wherein the smart city comprises: the equipment installation (210) comprises population information collection (211) and equipment classification installation (212), the population information collection (211) respectively counts information such as population number, age, population mobility heat, demand and the like by taking each building as a unit in an operation and maintenance range of each offline service network point in the population information collection (211), and the equipment classification installation (212) purchases and installs corresponding equipment of the category required in the city according to the statistical data of the population information collection (211).
4. The system of claim 1, wherein the smart city comprises: the regional operation and maintenance unit (201) is characterized in that offline service network point construction takes concentrated population areas in a city as paths for outward diffusion construction, and the distance between offline service network points is determined according to the current population density and the equipment number of the network point areas.
5. The system of claim 1, wherein the smart city comprises: the equipment maintenance (220) comprises cloud deployment (221), a maintenance terminal (222) and operation and maintenance information receiving and feedback (223), the cloud deployment (221) receives maintenance instructions from the information control center (202), deployment personnel and materials inquire the position of equipment to be processed from the urban three-dimensional touch model through the maintenance terminal (222), and the operation and maintenance information receiving and feedback (223) feeds back maintenance results after maintenance and is used for receiving deployment information before maintenance.
6. The system of claim 1, wherein the smart city comprises: the equipment dismantling (230) comprises a usage record (231) and a usage age (232), the usage record (231) inquires the recent usage time, the number of times and the user information of the equipment, judges whether the equipment is idle or not, migrates the equipment to a necessary section according to the equipment type, the use and the user requirement when a regular user is lacked, the usage age (232) compares the equipment with the service life thereof, judges whether the equipment can be used continuously or not by a manual mode after the equipment reaches the usage age of the equipment, dismantles the equipment if necessary, and installs qualified equipment of the same type for replacement.
7. The system of claim 1, wherein the smart city comprises: cloud end is from surveying (240) including artifical patrol (241) and cloud end is from surveying (240), artifical patrol (241) is based on equipment classification and place of installation, regularly patrols equipment comprehensively through artificial mode, cloud end is from surveying (242) and receives each equipment transmission information through equipment maintenance (220) from the cloud end and judges whether equipment operation is normal.
8. The system of claim 1, wherein the smart city comprises: the channel for receiving feedback in the operation and maintenance information collection (203) comprises an online and offline comprehensive mode of a mailbox, a telephone, a letter, a network service hall and the like, and the received information in the operation and maintenance information collection (203) comprises related information such as equipment loss reporting, equipment increment, equipment addition and the like.
9. The system of claim 1, wherein the smart city comprises: the regional operation and maintenance unit (201) comprises a material allocation unit (2011), the material allocation unit (2011) is arranged at the junction or the nearest distance between the regional operation and maintenance units (201), and the material allocation unit (2011) stores standby equipment and conveys the equipment to the maintenance position in the region of the contacted regional operation and maintenance unit (201) when needed.
10. The system of claim 5, wherein the smart city comprises: the maintenance terminal (222) is a portable networking terminal device customized by the operation and maintenance management system, and the signal transmission process of the portable networking terminal device is set in an encryption mode.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
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| CN202110506915.XA CN113283716A (en) | 2021-05-10 | 2021-05-10 | Equipment operation and maintenance management system for smart city |
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| CN202110506915.XA CN113283716A (en) | 2021-05-10 | 2021-05-10 | Equipment operation and maintenance management system for smart city |
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| CN113283716A true CN113283716A (en) | 2021-08-20 |
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Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN114500316A (en) * | 2022-01-30 | 2022-05-13 | 绿城科技产业服务集团有限公司 | Method and system for inspecting equipment of Internet of things |
| CN116050768A (en) * | 2023-01-28 | 2023-05-02 | 天津汉云工业互联网有限公司 | Scheduling method and device for engineering machinery service resources |
-
2021
- 2021-05-10 CN CN202110506915.XA patent/CN113283716A/en active Pending
Cited By (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN114500316A (en) * | 2022-01-30 | 2022-05-13 | 绿城科技产业服务集团有限公司 | Method and system for inspecting equipment of Internet of things |
| CN114500316B (en) * | 2022-01-30 | 2024-04-16 | 绿城科技产业服务集团有限公司 | Method and system for inspecting equipment of Internet of things |
| CN116050768A (en) * | 2023-01-28 | 2023-05-02 | 天津汉云工业互联网有限公司 | Scheduling method and device for engineering machinery service resources |
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