CN112767216A

CN112767216A - Flood prevention facility inspection management system and method

Info

Publication number: CN112767216A
Application number: CN202110088813.0A
Authority: CN
Inventors: 姜永建; 张羽; 陆明
Original assignee: Shanghai Gaocheng Intelligent Science & Technology Co ltd
Current assignee: Shanghai Gaocheng Intelligent Science & Technology Co ltd
Priority date: 2021-01-22
Filing date: 2021-01-22
Publication date: 2021-05-07

Abstract

The application relates to a flood prevention facility inspection management system and a flood prevention facility inspection management method, which belong to the field of flood prevention systems, wherein the method comprises the steps of obtaining facility information of flood prevention facilities, wherein the facility information consists of a plurality of flood prevention facilities, and the facility information comprises facility names and position information which corresponds to the facility names one by one; according to the position information, different place identifications are given to each flood prevention facility, and the place identifications comprise indoor identifications and outdoor identifications; acquiring rainfall condition information aiming at a current routing inspection area; acquiring weight information preset by flood prevention facilities; calculating and acquiring the detection times of each flood prevention facility in a fixed time period according to the rainfall condition information and the weight information; generating a routing inspection work list according to the detection times and the location identification; and feeding back the routing inspection work list to the user side. The application has the effects of improving the reasonability of routing inspection planning and reducing potential safety hazards.

Description

Flood prevention facility inspection management system and method

Technical Field

The application relates to the technical field of flood prevention systems, in particular to a flood prevention facility inspection management system and method.

Background

The inspection management of flood prevention facilities is to ensure that flood prevention equipment can normally operate when mountain flood disasters occur, and the benefits of disaster prevention and reduction are brought into play.

At present, machine detection cannot replace the inspection of flood prevention facilities, and various flood prevention facilities are still detected mainly by manpower. According to statistics of relevant data at home and abroad, the major potential safety hazard discovered by inspection of flood prevention facilities accounts for about 70% of the total number of the emergency reservoir. Therefore, the principle of polling and managing flood prevention facilities at regular intervals must be implemented, the polling work of the flood prevention facilities is strictly regulated, the quality of polling personnel is improved, the problems found in polling are timely judged, the flood prevention facilities can be ensured to normally operate when in use, and the possibility of accidents is reduced.

The related art described above has the following drawbacks: the management department usually checks the flood prevention facilities by using a regular spot check mode of an operator on duty, and the flood prevention facilities comprise indoor flood prevention facilities and outdoor flood prevention facilities, are various in types, and cannot detect all the flood prevention facilities at one time, so that the inspection of the flood prevention facilities has high randomness and certain potential safety hazards exist.

Disclosure of Invention

In order to improve the reasonability of routing inspection work arrangement and reduce potential safety hazards, the application provides a flood prevention facility routing inspection management system and method.

In a first aspect, the application provides a flood prevention facility inspection management method, which adopts the following technical scheme:

a flood prevention facility inspection management method comprises the following steps:

acquiring facility information of flood prevention facilities, wherein the facility information consists of a plurality of flood prevention facilities, and comprises facility names and storage position information which corresponds to the facility names one by one;

according to the storage position information, different place identifications are given to each flood prevention facility, and the place identifications comprise indoor identifications and outdoor identifications;

acquiring rainfall condition information aiming at a current routing inspection area;

acquiring weight information preset by the flood prevention facility;

calculating and acquiring the detection times of each flood prevention facility in a fixed time period according to the rainfall condition information and the weight information;

generating a routing inspection work list according to the detection times and the location identification;

and feeding back the routing inspection work list to the user side.

By adopting the technical scheme, the inspection work list is formulated according to the future rainfall condition and the weight information of the flood prevention facilities, so that the inspection work is adjusted along with the weather condition, the inspection work list which is more reasonable is designed for inspection personnel, the reasonability of the arrangement of the inspection work is improved, and the potential safety hazard of the flood prevention facilities in use is reduced.

Optionally, a frequency calculation formula is preset, and calculating and obtaining the detection times of each flood prevention facility in the fixed time period according to the rainfall condition information and the weight information specifically includes:

determining a calculation coefficient of the frequency calculation formula according to the rainfall condition information and a preset coefficient calculation formula;

acquiring historical rainfall condition information corresponding to the routing inspection area according to the fixed time period;

correcting the calculation coefficient according to the historical rainfall condition information to update the calculation coefficient;

substituting the calculation coefficient and the weight information into a frequency calculation formula, and calculating and obtaining the detection times of each facility in a fixed time period; the weight information is a specific numerical value, and the higher the numerical value corresponding to the weight information corresponding to the flood prevention facility is, the higher the corresponding detection frequency is.

By adopting the technical scheme, the polling work of the flood prevention facilities is enhanced in the time period with larger precipitation, so that the possibility of the flood prevention facilities breaking down in flood disaster is reduced, the calculation coefficient is corrected according to the historical rainfall condition, and the condition that the polling work list is unreasonably set due to inaccurate weather forecast is avoided.

Optionally, the generating of the inspection worksheet according to the detection times and the location identifier specifically includes:

allocating detection dates for each flood prevention facility according to a preset allocation method and the detection times of each flood prevention facility; one flood prevention facility can correspond to a plurality of detection dates, and the detection dates are all in a range corresponding to a fixed time period;

generating a patrol schedule according to the detection date corresponding to each flood prevention facility;

and acquiring all the inspection schedules, and integrating the inspection schedules to generate an inspection work list.

By adopting the technical scheme, the inspection schedule is made according to the detection times of various flood prevention facilities, manual planning is not needed, in a fixed period, the detection times corresponding to different flood prevention facilities are different, if the use frequency is higher, the corresponding detection times are more, and the customization of the inspection work list is more reasonable.

Optionally, the allocating, according to the preset allocation method and the detection times of each flood prevention facility, a detection date for each flood prevention facility specifically includes:

generating an inspection sub-work order according to the place identification, wherein the inspection sub-work order comprises an indoor sub-work order and an outdoor sub-work order; the indoor work order comprises all flood prevention facilities with indoor marks, and the outdoor work order comprises all flood prevention facilities with outdoor marks;

acquiring the maximum value of the detection times of the flood prevention facilities in the indoor work order, and marking the acquired maximum value as the indoor detection days;

according to the indoor detection days, allocating detection dates to the flood prevention facilities with the indoor identifications, and marking the detection dates allocated to the flood prevention facilities as indoor detection days;

acquiring a detection date which is not marked as an indoor detection date in the detection date, and marking the acquired detection date as a detection date to be distributed;

and allocating detection dates to the flood prevention facilities in the outdoor sub work order according to the detection dates to be allocated.

By adopting the technical scheme, the indoor flood prevention facilities and the outdoor flood prevention facilities are distinguished, so that when the workers inspect the flood prevention facilities, the workers do not need to rush between the indoor flood prevention facilities and the outdoor flood prevention facilities, the workload of the workers is reduced, and the customization of the inspection work order is more reasonable.

Optionally, after generating the inspection schedule according to the detection date corresponding to each flood prevention facility, the method further includes:

acquiring distance information between each flood prevention facility and a duty room on the inspection schedule according to the position information;

according to the distance information, sequencing the flood prevention facilities on the inspection schedule in the order from near to far, and obtaining a sequencing result;

planning an inspection route corresponding to the inspection schedule according to the position information and the sequencing result;

and integrating the routing inspection route into a routing inspection schedule.

Through adopting above-mentioned technical scheme, because the distribution of patrolling and examining the facility is comparatively scattered, for avoiding the staff to spend a large amount of time patrolling and examining the facility, according to patrolling and examining the route that schedule generation corresponds to save staff's operating time, reduce work load, improve and patrol and examine efficiency.

Optionally, each patrol schedule list includes corresponding flood prevention facility information and detection date information, and the method further includes:

sequencing the inspection schedules according to the detection date from the morning to the evening, and assigning a number to each inspection schedule according to a sequencing result;

acquiring a current day inspection schedule matched with the current day date and acquiring current day weather condition information;

judging whether rainfall exists on the current day according to the weather condition information of the current day;

if rainfall occurs on the current day, judging whether flood prevention facilities with outdoor identification exist in the current day polling schedule list or not;

if the current-day patrol schedule list contains flood prevention facilities with outdoor identifications, acquiring a patrol schedule list which is more than the current-day patrol schedule list in number and carries indoor identifications;

exchanging the serial number of the current inspection daily schedule with the serial number of the acquired inspection schedule, and updating the inspection work list according to the exchange result;

and feeding back the updated routing inspection work list to the user terminal.

Through adopting above-mentioned technical scheme, patrolling and examining the schedule to patrolling and examining on the same day according to the weather condition of patrolling and examining on the same day and adjusting, avoid the staff to detect outdoor equipment of patrolling and examining in rainy day.

Optionally, after planning the routing inspection route corresponding to the routing inspection schedule according to the location information and the distance information, the method further includes:

acquiring detection information of flood prevention facilities on the inspection schedule, wherein the detection information consists of a plurality of detection item information;

and generating hyperlinks jumping to the corresponding record lists for each flood prevention facility on the inspection schedule according to the detection information of the flood prevention facilities.

Through adopting above-mentioned technical scheme, carry on patrolling and examining the schedule and jump to the hyperlink that corresponds the record table, because when detecting a flood prevention facility, need carry out the detection of multiple aspect usually, the staff detects time measuring to equipment, can be with detecting in the virtual display frame that data input corresponds, can be automatically to patrolling and examining data and carry out the record to can avoid the staff to forget to examine, miss the inspection.

In a second aspect, the application provides a flood prevention facility inspection management method, which adopts the following technical scheme:

the system comprises a facility information acquisition module, a flood prevention facility management module and a flood prevention management module, wherein the facility information acquisition module is used for acquiring facility information of the flood prevention facility, the facility information consists of a plurality of flood prevention facilities, and the facility information comprises facility names and storage position information which is in one-to-one correspondence with the facility names;

the place identification giving module is used for giving different place identifications to each flood prevention facility according to the storage position information, and the place identifications comprise indoor identifications and outdoor identifications;

the rainfall condition information acquisition module is used for acquiring rainfall condition information aiming at the current routing inspection area;

the weight information acquisition module is used for acquiring weight information preset by the flood prevention facility;

the detection frequency calculation module is used for calculating and obtaining the detection frequency of each flood prevention facility in the fixed time period according to the rainfall condition information and the weight information;

the work sheet generation module is used for generating a routing inspection work sheet according to the detection times and the place identification;

and the feedback module is used for feeding the inspection work list back to the user side.

By adopting the technical scheme, the frequency of checking the flood prevention facilities is adjusted according to the rainfall condition, and a detailed routing inspection schedule is made for workers, so that routing inspection arrangement planning is more reasonable, and potential safety hazards are reduced.

In a third aspect, the present application provides an intelligent terminal, which adopts the following technical scheme:

an intelligent terminal comprising a memory and a processor, said memory having stored thereon a computer program that can be loaded by the processor and that executes the method according to the first aspect.

Through adopting above-mentioned technical scheme, for the staff plans the route of patrolling and examining, adopt the form of checking the card, avoid the staff to miss to examine, the staff need fill in the record list that corresponds and write the inspection result when examining flood prevention facility simultaneously, can avoid the staff to miss to examine the project to the staff of being convenient for arranges in order the inspection result.

A computer readable storage medium storing a computer program that can be loaded by a processor and execute the method according to the first aspect.

By adopting the technical scheme, after the computer readable storage medium is loaded into any computer, the computer can execute the flood prevention facility inspection management method provided by the application.

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

1. according to rainfall condition information, a corresponding inspection work list is formulated, the inspection frequency of flood prevention facilities is improved along with the increase of rainfall, the reasonability of inspection work planning is improved, and potential safety hazards are reduced;

2. the flood prevention facilities stored indoors and the flood prevention facilities stored outdoors are distinguished, the indoor flood prevention facilities and the outdoor flood prevention facilities are prevented from being simultaneously arranged on one inspection schedule, and workers do not need to go back and forth between the indoor space and the outdoor space, so that the workload of the workers is reduced;

3. each flood prevention facility on the inspection schedule generates a hyperlink which jumps to the record list, so that the problem of missed inspection during inspection work of workers is solved.

Drawings

Fig. 1 is a schematic flow chart of a flood prevention facility inspection management method according to an embodiment of the application.

Fig. 2 is a schematic flow chart illustrating a process of giving a location identifier to each flood prevention facility according to the embodiment of the application.

Fig. 3 is a schematic flowchart of a process of calculating and obtaining the detection times of each flood prevention facility in a fixed time period according to the embodiment of the application.

Fig. 4 is a schematic flow chart illustrating allocation of detection dates to each flood prevention facility according to the embodiment of the application.

Fig. 5 is a schematic flow chart illustrating adjustment of the patrol inspection worksheet according to the weather conditions of the current day according to the embodiment of the present application.

Fig. 6 is a block diagram of a flood prevention facility inspection management method according to an embodiment of the present application.

Description of reference numerals: 1. a facility information acquisition module; 2. a location identity assigning module; 3. a rainfall condition information acquisition module; 4. a weight information acquisition module; 5. a detection frequency calculation module; 6. a work order generation module; 61. a distribution module; 62. a routing inspection planning module; 63. a hyperlink generation module; 64. an integration module; 7. and a feedback module.

Detailed Description

The present application is described in further detail below with reference to figures 1-6.

The embodiment of the application discloses a flood prevention facility inspection management method. Referring to fig. 1, a flood prevention facility inspection management method includes:

s100: and acquiring facility information of the flood prevention facility.

The facility information comprises facility names and position information corresponding to the facility names one by one, and various flood prevention facilities are fixedly stored in different places due to different functions and volumes of the flood prevention facilities, and are embodied by GPS coordinate information.

S200: and according to the position information, giving a place identifier to each flood prevention facility.

The place marks comprise indoor marks and outdoor marks, outdoor marks are given to flood prevention facilities stored outdoors, and indoor marks are given to flood prevention facilities stored indoors. In implementation, the flood prevention facilities with the indoor identifications correspond to indoor flood prevention facilities, and the flood prevention facilities with the outdoor identifications correspond to outdoor flood prevention facilities.

Referring to fig. 2, S200 specifically includes:

s201: and distributing serial numbers for the flood prevention facilities on the list according to the facility information list.

The serial numbers are specifically numbers 1-N, the serial numbers are distributed one by one from small to large, and the serial numbers corresponding to each flood prevention facility are different.

S202: and acquiring the flood prevention facilities corresponding to the No. 1 facility information list, and marking the acquired flood prevention facilities as current flood prevention facilities.

S203: and judging whether the current flood prevention facilities are stored indoors or not according to the position information of the current flood prevention facilities.

If yes, jumping to S204;

if not, the process goes to S205.

S204: and distributing indoor marks for the current flood prevention facilities.

Wherein, jumping to S206 after S204 is completed.

S205: and distributing outdoor identification for the current flood prevention facilities.

In implementation, the flood prevention facilities stored in the room are usually stored in a fixed warehouse, the warehouse corresponds to a fixed coordinate range, and whether the current flood prevention facilities are stored in the room can be judged according to whether the GPS coordinate information of the current flood prevention facilities is in the coordinate range corresponding to the warehouse; and if the GPS coordinate information of the current flood prevention facility is in the coordinate range corresponding to the warehouse, giving an indoor identification to the current flood prevention facility, and if the GPS coordinate information of the current flood prevention facility is not in the coordinate range corresponding to the warehouse, giving an outdoor identification to the current flood prevention facility.

Generally, flood prevention facilities stored indoors include emergency hand-held electric lamps, riprap machines, and the like, and flood prevention facilities stored outdoors include barges, various facilities on water gates, and the like.

S206: and judging whether the serial number of the current flood prevention facility is N.

If yes, jumping to S300;

if not, the process goes to S207.

The serial number N is the same as N of the serial numbers allocated to the flood prevention facilities in S201, if the serial number of the current flood prevention facility is N, it indicates that serial numbers have been allocated to all the flood prevention facilities, and if the serial number of the current flood prevention facility is not N, serial numbers are still not allocated to the flood prevention facilities. In implementation, each flood prevention facility is increased or decreased, so that N is a variable value and can be adjusted according to the increase or decrease of the flood prevention facilities.

S207: and acquiring the next flood prevention facility according to a preset acquisition rule, and redefining the current flood prevention facility.

Wherein, jumping to S203 after S207 is completed.

Specifically, the obtaining rule is to obtain a flood prevention facility which is 1 greater than the numerical value of the serial number of the current flood prevention facility, and mark the obtained flood prevention facility as the current flood prevention facility. For example, if the serial number is 1 to 12, and the serial number corresponding to the current flood prevention facility in S206 is No. 3, the flood prevention facility with the serial number of 4 is obtained according to the obtaining rule, the current flood prevention facility is redefined as the flood prevention facility No. 4, and the process jumps to S203.

S300: and acquiring rainfall condition information aiming at the current routing inspection area.

The rainfall condition information is the rainfall condition of a fixed time period in the future, and the rainfall condition information is specifically the prediction of the total amount of rainfall in the fixed time period. In this embodiment, the fixed time period is specifically 30 days, and a next-month patrol worksheet is set for the staff at the bottom of a month every month, that is, the time corresponding to the acquired rainfall condition information is fixed as the rainfall condition information from the beginning of the next month to 30 days later

S400: and acquiring preset weight information of the flood prevention facilities according to the facility information.

The weight information is a numerical value in the range of 0% -100%, and the larger the numerical value corresponding to the weight information is, the more the number of times the flood prevention facility needs to be detected in a fixed time period is.

Specifically, the corresponding detection times of each flood prevention facility are different, some flood prevention facilities need frequent detection, and some basic flood prevention facilities need no frequent detection, so that the corresponding weight information of each flood prevention facility is different. For example, the barge corresponds to 70% of the weight information, and the emergency hand-held electric lamp corresponds to 35% of the weight information.

S500: and calculating and acquiring the detection times of each flood prevention facility in a fixed time period according to the rainfall condition information and the weight information.

Referring to fig. 3, S500 specifically includes:

s501: and determining a calculation coefficient of the frequency calculation formula according to the rainfall condition information and a preset coefficient calculation formula.

Wherein, a coefficient calculation formula and a frequency calculation formula are preset, and the coefficient calculation formula specifically comprises:

wherein a is a calculation coefficient, b is the total amount of rainfall in a fixed time period determined according to rainfall condition information, and the unit is m; the frequency calculation formula is specifically as follows: y = [ ax + 1)]Wherein y is the detection frequency corresponding to the flood prevention facility, a is the calculation coefficient a in the coefficient calculation formula, and x is the weight information corresponding to the flood prevention facility, "is]"means an integer function, that is, the number of times of detection is an integer value obtained by multiplying a calculation coefficient by weight information corresponding to the flood prevention facility and then adding 1 to the calculation coefficient.

S502: and acquiring historical rainfall condition information corresponding to the patrol area according to a fixed time period.

In implementation, a next-month patrol worksheet is set for workers at the bottom of a month every month, namely the time corresponding to the acquired rainfall condition information is fixed as the rainfall condition information from the beginning to 30 days later in the next month. For example, if the current time is 2020, 4 and 30 days, the acquired rainfall condition information is rainfall condition information from 2020, 5, 1 and 2020, 5, 30 days, and the corresponding estimated total precipitation amount is 0.3 m, historical rainfall condition information from 2019, 5, 1 and 2019, 5, 30 days is acquired, and the corresponding historical total precipitation amount is 2.1 m.

S503: and acquiring a difference value between the historical rainfall total amount in the historical rainfall condition information and the rainfall total amount in the rainfall condition information, and judging whether the acquired difference value is greater than a preset correction threshold value.

If yes, jumping to S504;

if not, the process goes to S505.

The acquired difference value can be positive or negative, whether the acquired difference value is larger than a preset correction threshold value or not is judged, if the difference value is larger than the preset correction threshold value, it is indicated that the rainfall of the current detection area in the period of time in the past year is sufficient, the difference value has larger deviation with the acquired rainfall condition information, and the calculation coefficient is set unreasonably in order to avoid the phenomenon that the calculation coefficient is set due to errors or sudden rainfall and the like in weather forecast, so that the calculation coefficient is corrected.

S504: and correcting the calculation coefficient according to the historical rainfall condition information.

Wherein, a correction formula is preset, and the correction formula specifically comprises: a = (c-b)/2, wherein a is a calculation coefficient, b is the total amount of precipitation in a fixed time period determined according to the rainfall condition information, the unit is m, and c is the total amount of historical precipitation in a corresponding time period determined according to the historical rainfall condition information.

S505: and acquiring the detection times of the flood prevention facilities in a fixed time period according to a frequency calculation formula.

Specifically, the detection times of the flood prevention facilities in a fixed time period can be obtained by substituting the calculation coefficient into a frequency calculation formula, and the detection times are specifically the times of detection of the flood prevention facilities by workers in the fixed time period.

For example, if the obtained calculation coefficient a is 2.21 and the weight information corresponding to the barge is 70%, the frequency calculation formula y = [ ax +1] is substituted, and the number of detections corresponding to the barge is 2, the barge needs to perform 2 detections in the next 30 days.

S600: and allocating detection dates to each flood prevention facility according to the detection times and the location identification.

Referring to fig. 4, step S600 specifically includes:

s601: and generating the inspection sub-work order according to the site identification.

Wherein, patrolling and examining the sub-worksheet and including indoor sub-worksheet and outdoor sub-worksheet. Specifically, the indoor work sub-worksheet comprises all flood prevention facilities carrying the indoor identification, and the outdoor work sub-worksheet comprises all flood prevention facilities carrying the outdoor identification.

S602: and acquiring indoor detection days.

The indoor detection days are the total days for the staff to plan and detect the flood prevention facilities stored indoors in a fixed time period, and the indoor detection days correspond to the maximum value of the detection times of the flood prevention facilities in the indoor work order.

S603: and according to the indoor detection days and a preset distribution method, distributing the indoor detection days for the flood prevention facilities with the indoor identifications.

The indoor detection day is a collection of specific dates for checking the indoor flood prevention facilities planned for workers; the allocation method specifically comprises the steps of dividing days corresponding to a fixed time period by indoor detection days, performing rounding processing on an obtained result to obtain a calculation parameter x, and sequentially obtaining 1 x, 2 x, … and n x, wherein n is the indoor detection days obtained in S602, and the corresponding 1 x, 2 x, … and n x are the specific indoor detection days; and acquiring the detection times corresponding to the flood prevention facilities on the indoor work order, dividing the indoor detection days by the detection times, and performing adjustment and then subtracting one by the acquired divisor, so that the interval times between two detections corresponding to the flood prevention facilities are determined, and the corresponding indoor detection days are distributed to the flood prevention facilities.

For example, there are A, B, C, D types of flood prevention facilities carrying indoor identifications in the indoor sub worksheet, the corresponding detection times are 2, 6, 3 and 4 respectively, the maximum value of the corresponding detection times is 6, the obtained indoor detection days are 6, the obtained fixed time period corresponding to the rainfall condition information is from 5 months 1 in 2020 to 5 months 20 in 2020, the obtained calculation parameter x is 5, the corresponding indoor detection days are 5 months and 5 days, 5 months and 10 days, 5 months and 15 days, 5 months and 20 days, 5 months and 25 days and 5 months and 30 days, the corresponding detection times of the flood prevention facility a are 2, the corresponding interval times are 2, that is, the flood prevention facility a is detected twice every other, the indoor detection dates corresponding to the flood prevention facility a are 5 months and 20 days, and so on, the indoor detection dates corresponding to the flood prevention facility C are 5 months and 5 days, And 5, 15 days in month 5 and 25 days in month 5, and the indoor detection dates corresponding to the flood prevention facility D are 5 days in month 5, 10 days in month 5, 15 days in month 5 and 20 days in month 5.

S604: and acquiring the detection day to be distributed.

The detection dates to be allocated are detection dates which are not marked as indoor detection dates in all the detection dates, and the detection dates can be used for planning outdoor inspection projects for workers, so that the indoor inspection projects are prevented from being overlapped with the outdoor inspection projects.

S605: and according to the distribution method, distributing detection dates for the flood prevention facilities in the outdoor work order.

The distribution method is the same as the distribution method in S603, and all the detection dates distributed to the outdoor sub-work orders are marked as outdoor detection dates.

S606: and judging whether all outdoor detection days are overlapped with the detection days to be distributed.

If yes, jumping to S608;

if not, the process goes to S607.

S607: and updating the outdoor detection day.

Specifically, all outdoor detection days which do not overlap with the detection day to be allocated are acquired, the acquired outdoor detection days are marked as the detection days to be updated, the detection days to be updated are delayed for one day, the updated outdoor detection days are acquired, and all the outdoor detection days are acquired according to the updating result. In practice, no modification takes place on the outdoor detection day that overlaps with the detection day to be allocated.

S608: and generating an inspection schedule according to the detection date corresponding to each flood prevention facility.

Each flood prevention facility corresponds to at least one detection date, the inspection calendar comprises a plurality of parts, and a plurality of flood prevention facilities which need to be inspected by working personnel on the same day are arranged on the inspection calendar.

S700: and acquiring the routing inspection route according to the position information.

Wherein, S700 specifically includes:

s701: and acquiring the distance information between each flood prevention facility and the duty room on the patrol schedule according to the position information.

The distance information between the flood prevention facilities and the duty room can be obtained according to the position information carried in each flood prevention facility.

S702: and sequencing the flood prevention facilities on the inspection schedule according to the distance information to obtain a sequencing result.

Specifically, the flood prevention facilities on the patrol schedule list are sorted from near to far according to the distance information, and a sorting result is obtained.

S703: and planning an inspection route corresponding to the inspection schedule according to the sequencing result and the position information.

And the inspection sub-routes between every two flood prevention facilities can be planned according to the sequencing result, and the inspection sub-routes are combined to obtain the inspection route.

In implementation, the staff usually go from the duty room to patrol and examine flood prevention facilities, and flood prevention facilities are usually distributed in a scattered manner, so that the staff can plan a patrol and examine route for the convenience of patrol and examine work. Meanwhile, the staff carries a positioning device, such as a mobile phone and the like, when the mobile phone is detected, every time the mobile phone is close to the inspection equipment on the inspection schedule, the mobile phone can automatically punch a card, and the phenomenon of missing inspection is avoided.

S800: and generating the hyperlink according to the detection information.

Wherein, S800 specifically includes:

s801: and acquiring the detection information of the flood prevention facilities.

The detection information consists of a plurality of detection item information, the detection items of each flood prevention facility are different, and the corresponding detection item information is different. For example, the detection item information corresponding to the emergency handheld electric lamp is the quantity and whether the emergency handheld electric lamp can emit light normally; and the information of the detection items corresponding to the barge is whether the barge can be started normally.

S802: and generating hyperlinks jumping to the corresponding record lists for each flood prevention facility on the inspection schedule according to the detection information.

When the staff checks the corresponding flood prevention facilities according to the inspection schedule, the staff can enter the record list corresponding to the flood prevention facilities and input the check data, so that the missing of the check of the staff is avoided, and the potential safety hazard is reduced.

S900: and integrating the inspection schedule into an inspection work list.

S1000: and feeding back the routing inspection work list to the user terminal.

Wherein, the staff can be according to patrolling and examining the work order, makes clear and determine the work content of oneself.

Further, referring to fig. 5, in implementation, due to the instability of weather, the patrol worksheet may be adjusted according to the weather condition of the current day, and the corresponding processing may be as follows:

s10: and sequencing the routing inspection schedule according to the detection date and obtaining a sequencing result.

The sequencing mode is specifically to sequence the patrol schedule lists from morning to evening.

S11: and according to the sequencing result, assigning a number to each routing inspection schedule.

The inspection schedule list corresponds to a detection date, the number of the inspection schedule list with the earlier date is smaller, the inspection schedule list is numbered from 1 to N, and N is equal to the total number of the inspection schedule lists.

S12: and acquiring the current day patrol schedule matched with the current day and acquiring the current day weather condition information.

Specifically, the step is automatically executed before the staff starts the patrol work, and the weather condition information of the current day includes the rainfall condition information of the current day.

S13: and judging whether rainfall exists on the current day according to the weather condition information on the current day.

If yes, go to S14;

if not, no response is made.

S14: and judging whether flood prevention facilities with outdoor identification exist in the current inspection schedule according to the current inspection schedule.

If yes, go to S15;

if not, no response is made.

If rainfall occurs in the current day and a flood prevention facility with an outdoor identification is arranged in the patrol schedule, the outdoor flood prevention equipment is checked for the staff, and the patrol schedule can be adjusted for the convenience of the staff to perform patrol work.

S15: and acquiring an inspection schedule which is provided with a serial number larger than that of the inspection schedule on the current day and carries the indoor identification.

And if the inspection schedule meeting the conditions does not exist, no response is made, and the inspection work list is not adjusted. For example, the number of the polling schedules is 10, the number is 1-10, and the number corresponding to the polling schedule on the current day is 3, so that the polling schedules carrying the indoor identification in 4-10 are randomly obtained.

S16: and updating the polling work list.

The updating mode is specifically that the serial number of the current-day inspection schedule is exchanged with the serial number of the obtained inspection schedule, and the inspection schedules are reordered according to the serial numbers to obtain the updated inspection work list.

S17: and feeding back the updated routing inspection work list to the user terminal.

In implementation, under the rainy condition, through will patrolling and examining the daily schedule with carrying indoor sign and patrolling and examining the schedule and exchanging, can avoid the staff to examine the equipment of patrolling and examining of depositing in the open air in the rainy as far as possible.

The implementation principle is as follows: according to rainfall condition information in a fixed time period, the detection frequency of each item of flood prevention equipment is adjusted, the corresponding detection frequency is higher under the condition that the rainfall is larger, and meanwhile, according to the position information of flood prevention facilities, the flood prevention facilities stored indoors and the flood prevention facilities stored outdoors are planned separately, so that the daily inspection by workers is facilitated, the reasonability of inspection work arrangement is improved, and potential safety hazards are reduced.

The embodiment of the application also discloses a flood prevention facility inspection management system. Referring to fig. 6, the flood prevention facility inspection management system includes a facility information obtaining module 1, a location identifier assigning module 2, a rainfall condition information obtaining module 3, a weight information obtaining module 4, a detection frequency calculating module 5, a work list generating module 6, an allocating module 61, an inspection route planning module 62, a hyperlink generating module 63, an integrating module 64, and a feedback module 7.

And the facility information acquisition module 1 is used for acquiring facility information of the flood prevention facility.

And the place identification giving module 2 is used for giving place identifications to each flood prevention facility according to the position information.

And the rainfall condition information acquisition module 3 is used for acquiring rainfall condition information aiming at the current routing inspection area.

And the weight information acquisition module 4 is used for acquiring preset weight information of the flood prevention facilities according to the facility information.

And the detection frequency calculation module 5 is used for calculating and acquiring the detection frequency of each flood prevention facility in a fixed time period according to the rainfall condition information and the weight information.

The work sheet generation module 6 is used for generating an inspection work sheet according to the detection times and the location identification, and specifically comprises the following sub-modules:

and the distribution module 61 is used for distributing the detection date for each flood prevention facility according to the detection times and the location identification.

And the routing inspection route planning module 62 is used for acquiring routing inspection routes according to the position information.

And a hyperlink generating module 63, configured to generate a hyperlink according to the detection information.

And the integration module 64 is used for integrating the inspection schedule into an inspection worksheet.

And the feedback module 7 is used for feeding the inspection work list back to the user terminal.

The embodiment of the application also discloses an intelligent terminal which comprises a memory and a processor, wherein the memory is stored with a computer program which can be loaded by the processor and can execute the flood prevention facility inspection management method.

The embodiment of the present application further discloses a computer-readable storage medium, which stores a computer program that can be loaded by a processor and executes the flood prevention facility inspection management method, and the computer-readable storage medium includes: 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 application, and do not limit the scope of protection of the application. It is to be understood that the embodiments described are only some of the embodiments of the present application and not all of them. All other embodiments, which can be derived by a person skilled in the art from these embodiments without making any inventive step, are within the scope of the present application.

Claims

1. A flood prevention facility inspection management method is characterized by comprising the following steps:

acquiring facility information of flood prevention facilities, wherein the facility information consists of a plurality of flood prevention facilities, and comprises facility names and position information which corresponds to the facility names one to one;

according to the position information, different place identifications are given to each flood prevention facility, and the place identifications comprise indoor identifications and outdoor identifications;

acquiring weight information preset by the flood prevention facility;

and feeding back the routing inspection work list to the user side.

2. The flood prevention facility inspection management method according to claim 1, wherein a frequency calculation formula is preset, and the calculating and obtaining the detection times of each flood prevention facility in the fixed time period according to the rainfall condition information and the weight information specifically comprises:

3. The flood prevention facility inspection management method according to claim 1, wherein the generating of the inspection worksheet according to the detection times and the location identification specifically comprises:

4. The flood prevention facility inspection management method according to claim 3, wherein the step of allocating a detection date to each flood prevention facility according to a preset allocation method and the detection times of each flood prevention facility specifically comprises the steps of:

5. The flood prevention facility inspection management method according to claim 3, after generating an inspection schedule according to the detection date corresponding to each flood prevention facility, further comprising:

6. The flood prevention facility inspection management method according to claim 3, wherein each inspection schedule includes corresponding flood prevention facility information and detection date information, and the method further comprises:

and feeding back the updated routing inspection work list to the user terminal.

7. The flood prevention facility inspection management method according to claim 5, further comprising the following steps of after planning an inspection route corresponding to the inspection schedule according to the position information and the distance information:

8. A flood prevention facility inspection management system is characterized by comprising,

the flood prevention facility information acquisition module is used for acquiring facility information of flood prevention facilities, wherein the facility information consists of a plurality of flood prevention facilities, and comprises facility names and storage position information which corresponds to the facility names one by one;

the place identification giving module (2) is used for giving different place identifications to each flood prevention facility according to the storage position information, and the place identifications comprise indoor identifications and outdoor identifications;

the rainfall condition information acquisition module (3) is used for acquiring rainfall condition information aiming at the current routing inspection area;

the weight information acquisition module (4) is used for acquiring weight information preset by the flood prevention facility;

the detection times calculation module (5) is used for calculating and acquiring the detection times of each flood prevention facility in the fixed time period according to the rainfall condition information and the weight information;

the work sheet generation module (6) is used for generating an inspection work sheet according to the detection times and the place identification;

and the feedback module (7) is used for feeding the inspection work list back to the user side.

9. An intelligent terminal, comprising a memory and a processor, the memory having stored thereon a computer program that can be loaded by the processor and that executes the method according to any one of claims 1 to 7.

10. A computer-readable storage medium, in which a computer program is stored which can be loaded by a processor and which executes the method of any one of claims 1 to 7.