CN111018236A - Method and system for generating sewage treatment inspection scheme - Google Patents

Abstract

The invention discloses a generation method and a generation system of a sewage treatment inspection scheme, belongs to the technical field of sewage treatment, and aims to solve the problem that an independent inspection scheme cannot be generated according to the process flow and equipment conditions of each sewage treatment plant in the prior art. Firstly, marking and associating a site, a name and a category of each equipment to be inspected; summarizing the types of all marked equipment to be inspected to form a type set, and selecting the type to be inspected from the type set to form an inspection type set; selecting a station to be inspected, and summarizing the types of equipment to be inspected of the station to be inspected to form a set of types to be inspected; selecting a class shared with the polling class set from the class set to be polled to form a site polling class set; and determining the polling items of the equipment names to be polled according to the equipment names to be polled corresponding to the classes of the site polling class set, and generating a polling scheme corresponding to the site.

Description

Method and system for generating sewage treatment inspection scheme

Technical Field

The invention belongs to the technical field of sewage treatment, and relates to a method for generating a routing inspection scheme of a sewage treatment station.

Background

With the improvement of the urbanization level of China and the requirement of resident environment, the sewage treatment in cities is a mature technology. Municipal sewage treatment is currently preferred to adopt an underground sewage treatment plant which can coordinate with the surrounding environment, has strong sealing property and does not have secondary pollution. However, in the process of urbanization development, a part of people are rushed into a large city, and more people in rural areas enter the towns, so that severe conditions are provided for the matching of infrastructure of the towns, and particularly for the treatment of domestic sewage. Some small towns basically have no sewage treatment plant, and domestic sewage is discharged freely; even if a slightly larger village and a slightly larger town have sewage treatment plants, the sewage treatment plants in the village and the town have weak treatment capability and cannot meet the current sewage treatment requirement in the village and the town, so that the sewage treatment in the village and the town is urgent.

The domestic sewage treatment in villages and towns faces a serious problem, namely the later inspection and maintenance of the sewage treatment facility, besides the addition of the sewage treatment facility. Because the villages and towns are generally far away, the villages and towns have relatively few sewage treatment equipment and relatively small specifications, the inspection system for regularly inspecting and maintaining the domestic sewage equipment of the villages and towns is very important.

The invention patent application with the application number of 201910340704.6 discloses an intelligent inspection system special for a biological reaction tank of a sewage treatment plant, wherein a concrete top plate is arranged above the biological reaction tank, the intelligent inspection system comprises a charging station, a guide rail, an automatic opening and closing cover plate, an intelligent robot, an intelligent comprehensive management platform and a communication device, the charging station is arranged at one end of the concrete top plate, the concrete top plate is provided with a hole, the automatic opening and closing cover plate is covered in the hole, one end of the guide rail is positioned in the charging station, the guide rail is bent, obliquely and downwards penetrates through a gap of the automatic opening and closing cover plate and is arranged along the lower part of the top plate, the intelligent robot slides along the guide rail, the communication device is arranged below the top plate, the communication device; the invention has the advantages that: can patrol and examine under the biological reaction pond roof, observe the biological reaction pond aeration condition, the intelligent judgement aeration is strong or weak, reduces personnel intensity of labour, ensures personal safety, provides the plant maintenance basis.

For the sewage treatment of villages and towns, the inspection system is really important, and the inspection system provides a strong background support for the sewage treatment of the villages and the towns. However, in addition to the inspection system, a specific inspection scheme and inspection method are also important. The invention patent application with application number 201310238578.6 discloses an inspection method and an inspection system, wherein the inspection method comprises the following steps: presetting routing inspection items, routing inspection personnel and routing inspection time corresponding to different equipment to be routed in a routing inspection server; the inspection server generates an inspection work order according to inspection items, inspection personnel and inspection time corresponding to different equipment to be inspected; the inspection server verifies the identity of the portable terminal and sends an inspection work order to the portable terminal; the portable terminal downloads the inspection work order, receives and stores inspection data of the inspection equipment to be inspected according to the inspection work order by inspection personnel, and uploads the inspection data to the inspection server; the inspection server carries out statistical analysis on the inspection data to generate a corresponding inspection report, and the handheld portable terminal is used for filling the inspection data, so that the inspection workload is greatly reduced, and the inspection efficiency is greatly improved.

In the inspection method, the inspection work order is generated through the inspection items preset by the system, then the inspection personnel inspects the inspection work order item by item and uploads the inspection data. However, the inspection method is more suitable for daily inspection of the sewage treatment plants in the large cities, and because most of the process lines and treatment equipment adopted by the sewage treatment plants in the large cities are consistent and perhaps have a little difference, a standard inspection worksheet can be adopted. However, the number of towns in China is very large, and the construction units of the sewage treatment plants in each town may be different, so that the treatment processes adopted by the sewage treatment plants in different towns, the sewage treatment equipment adopted for realizing the same function in the processes, and the inspection items of different equipment with the same function may be different, so that the existing inspection worksheet cannot be suitable for the inspection of the sewage treatment equipment of the sewage treatment plants in the towns, different sewage treatment plants perform different modifications on the inspection worksheet, the inspection worksheet modification workload is large, and the inspection difficulty is large; and once the equipment of the sewage treatment plant is changed or the requirement of the inspection is changed, the inspection scheme of each sewage treatment plant is readjusted.

Disclosure of Invention

The invention aims to: the invention provides a method and a system for generating a sewage treatment inspection scheme, which solve the problem that the conventional inspection scheme cannot be applied to sewage treatment plants in villages and towns and the problem that the prior art cannot generate an independent inspection scheme according to the process flow and equipment conditions of each sewage treatment plant.

The technical scheme adopted by the invention is as follows:

a generation method of a sewage treatment inspection scheme comprises the following steps:

s1, marking and associating the site, name and category of each equipment to be inspected;

s2, summarizing the categories of all the equipment to be inspected marked in the step S1 to form a category set;

s3, selecting the category needing to be inspected from the category set in the step S2 to form an inspection category set;

s4, selecting a station to be inspected, and summarizing the types of equipment to be inspected of the station to be inspected to form a set of types to be inspected;

s5, selecting the category shared with the inspection category set from the category set to be inspected to form a site inspection category set;

and S6, matching the names of the equipment to be inspected corresponding to the categories in the station inspection category set in the step S5 according to the association relationship, determining the inspection items corresponding to the names of the equipment to be inspected, and generating the inspection scheme corresponding to the station.

When the class marking is carried out on the equipment to be inspected, the marked equipment to be inspected is functionally classified.

When the routing inspection items are correlated in different steps, the technical scheme with different effects is generated, and then two correlation modes are provided;

the first way of associating the patrol item is to associate the patrol item in step S1, that is:

in step S1, marking and associating the site, name, category, and routing inspection item of each device to be routed;

in step S3, selecting a category to be inspected from the category set in step S2 to form an inspection category set;

in step S6, the names of the devices to be inspected corresponding to the categories in the site inspection category set in step S5 are matched according to the association relationship in step S1, and the inspection items corresponding to the names of the devices to be inspected are matched according to the association relationship in step S1, so as to generate the inspection plan corresponding to the site.

Under the association mode, the more optimal generation mode of the routing inspection scheme is as follows:

in step S3, selecting a category to be inspected from the category set in step S2 to form an inspection category set; determining the routing inspection items of each category in the routing inspection category set according to the incidence relation of the step S1, and generating a routing inspection custom module comprising the categories and the routing inspection items corresponding to the categories;

in step S6, the names of the devices to be inspected corresponding to the categories in the site inspection category set in step S5 are matched according to the association relationship in step S1, the inspection custom modules corresponding to the categories in the site inspection category set are matched, and an inspection plan including the names of the devices to be inspected and the inspection items of the corresponding sites is generated.

The second way of associating the patrol items is to associate the patrol items in step S3, that is:

in step S1, marking and associating the site, name and category of each equipment to be inspected;

in step S3, selecting a category to be inspected from the category set in step S2 to form an inspection category set; associating corresponding inspection items according to each category in the inspection category set;

in step S6, the names of the devices to be inspected corresponding to the categories in the site inspection category set in step S5 are matched according to the association relationship in step S1, and the inspection items corresponding to the names of the devices to be inspected are matched according to the association relationship in step S3, so as to generate the inspection plan corresponding to the site.

Under the association mode, the more optimal generation mode of the routing inspection scheme is as follows:

in step S3, selecting a category to be inspected from the category set in step S2 to form an inspection category set; associating corresponding polling items according to the classes in the polling class set, and generating a polling custom module comprising the classes and the polling items corresponding to the classes;

in step S6, the names of the devices to be inspected corresponding to the categories in the site inspection category set in step S5 are matched according to the association relationship in step S1, the inspection custom modules corresponding to the categories in the site inspection category set are matched, and an inspection plan including the names of the devices to be inspected and the inspection items of the corresponding sites is generated.

A generation system of sewage treatment inspection scheme, which comprises:

the marking and associating module is used for marking and associating the site, the name and the category of each equipment to be patrolled;

the category set forming module is used for summarizing the categories of all the equipment to be inspected marked by the marks and the association module and forming a category set;

the inspection class set forming module is used for selecting classes to be inspected from the class set to form an inspection class set;

the system comprises a to-be-patrolled class set forming module, a to-be-patrolled class set generating module and a to-be-patrolled class set generating module, wherein the to-be-patrolled class set generating module is used for selecting a to-be-patrolled station, summarizing the class of to-be-patrolled equipment of the to;

the station polling category set forming module is used for selecting categories which are shared with the polling category set from the category set to be polled to form a station polling category set;

and the inspection scheme generating module is used for matching the names of the equipment to be inspected corresponding to the categories in the site inspection category set according to the incidence relation, determining inspection items corresponding to the names of the equipment to be inspected, and generating the inspection scheme corresponding to the site.

In summary, due to the adoption of the technical scheme, the invention has the beneficial effects that:

according to the invention, the site, the name and the category of the equipment to be inspected are associated, and the site information, the name information and the category of all the equipment to be inspected are collected and stored in advance. Whether the sewage treatment equipment needs to be subjected to polling and maintenance is determined by the type of the equipment, and polling parameters of the equipment of the same type are basically consistent. Therefore, the method and the device have the advantages that the types of the devices to be patrolled are used as a main line, the types of all the devices are collected, whether the equipment needs to be patrolled or not is judged according to the types of the devices to be patrolled, so that whether the equipment needs to be patrolled or not at a certain site is finally determined through analyzing and judging whether the types of the devices to be patrolled at the certain site belong to the patrolling type set or not, and whether the equipment needs to be patrolled or not is judged, so that an independent patrolling scheme applicable to the site is generated according to the actual.

Carry out analysis, judgement through the classification of equipment, to the problem that different sewage treatment plants may choose the equipment of different producers, different models for same functional equipment (for example the functional classification of medicine pump is for adding medicine, the functional classification of aeration machine is aeration etc.) the different sewage treatment plants, this application also can solve in the lump, different sewage treatment plants are to the applicable same sub-scheme of patrolling and examining of same functional equipment, need not to make the solitary scheme of patrolling and examining for every website.

When certain functional equipment of a certain sewage treatment plant can not meet the current production requirement and needs to be replaced by other manufacturers or functional equipment of other models, the inspection scheme does not need to be replaced, the inspection method is more automatic and flexible, and the whole inspection scheme is better in universality.

Drawings

The invention will now be described, by way of example, with reference to the accompanying drawings, in which:

FIG. 1 is a block flow diagram of a first embodiment of the present invention;

fig. 2 is a flow chart of a second embodiment of the present invention.

Detailed Description

All of the features disclosed in this specification, or all of the steps in any method or process so disclosed, may be combined in any combination, except combinations of features and/or steps that are mutually exclusive.

A generation method of a sewage treatment inspection scheme comprises the following steps:

s1, marking and associating the site, name and category of each equipment to be inspected;

s2, summarizing the categories of all the equipment to be inspected marked in the step S1 to form a category set;

s3, selecting the category needing to be inspected from the category set in the step S2 to form an inspection category set;

s4, selecting a station to be inspected, and summarizing the types of equipment to be inspected of the station to be inspected to form a set of types to be inspected;

s5, selecting the category shared with the inspection category set from the category set to be inspected to form a site inspection category set;

and S6, matching the names of the equipment to be inspected corresponding to the categories in the station inspection category set in the step S5 according to the association relationship, determining the inspection items corresponding to the names of the equipment to be inspected, and generating the inspection scheme corresponding to the station.

When the class marking is carried out on the equipment to be inspected, the marked equipment to be inspected is functionally classified.

When the routing inspection items are correlated in different steps, the technical scheme with different effects is generated, and then two correlation modes are provided;

the first way of associating the patrol item is to associate the patrol item in step S1, that is:

in step S1, marking and associating the site, name, category, and routing inspection item of each device to be routed;

in step S3, selecting a category to be inspected from the category set in step S2 to form an inspection category set;

in step S6, the names of the devices to be inspected corresponding to the categories in the site inspection category set in step S5 are matched according to the association relationship in step S1, and the inspection items corresponding to the names of the devices to be inspected are matched according to the association relationship in step S1, so as to generate the inspection plan corresponding to the site.

Under the association mode, the more optimal generation mode of the routing inspection scheme is as follows:

in step S3, selecting a category to be inspected from the category set in step S2 to form an inspection category set; determining the routing inspection items of each category in the routing inspection category set according to the incidence relation of the step S1, and generating a routing inspection custom module comprising the categories and the routing inspection items corresponding to the categories;

in step S6, the names of the devices to be inspected corresponding to the categories in the site inspection category set in step S5 are matched according to the association relationship in step S1, the inspection custom modules corresponding to the categories in the site inspection category set are matched, and an inspection plan including the names of the devices to be inspected and the inspection items of the corresponding sites is generated.

The second way of associating the patrol items is to associate the patrol items in step S3, that is:

in step S1, marking and associating the site, name and category of each equipment to be inspected;

in step S3, selecting a category to be inspected from the category set in step S2 to form an inspection category set; associating corresponding inspection items according to each category in the inspection category set;

in step S6, the names of the devices to be inspected corresponding to the categories in the site inspection category set in step S5 are matched according to the association relationship in step S1, and the inspection items corresponding to the names of the devices to be inspected are matched according to the association relationship in step S3, so as to generate the inspection plan corresponding to the site.

Under the association mode, the more optimal generation mode of the routing inspection scheme is as follows:

in step S3, selecting a category to be inspected from the category set in step S2 to form an inspection category set; associating corresponding polling items according to the classes in the polling class set, and generating a polling custom module comprising the classes and the polling items corresponding to the classes;

in step S6, the names of the devices to be inspected corresponding to the categories in the site inspection category set in step S5 are matched according to the association relationship in step S1, the inspection custom modules corresponding to the categories in the site inspection category set are matched, and an inspection plan including the names of the devices to be inspected and the inspection items of the corresponding sites is generated.

A generation system of sewage treatment inspection scheme, which comprises:

the marking and associating module is used for marking and associating the site, the name and the category of each equipment to be patrolled;

the category set forming module is used for summarizing the categories of all the equipment to be inspected marked by the marks and the association module and forming a category set;

the inspection class set forming module is used for selecting classes to be inspected from the class set to form an inspection class set;

the system comprises a to-be-patrolled class set forming module, a to-be-patrolled class set generating module and a to-be-patrolled class set generating module, wherein the to-be-patrolled class set generating module is used for selecting a to-be-patrolled station, summarizing the class of to-be-patrolled equipment of the to;

the station polling category set forming module is used for selecting categories which are shared with the polling category set from the category set to be polled to form a station polling category set;

and the inspection scheme generating module is used for matching the names of the equipment to be inspected corresponding to the categories in the site inspection category set according to the incidence relation, determining inspection items corresponding to the names of the equipment to be inspected, and generating the inspection scheme corresponding to the site.

Example 1

As shown in fig. 1, the generation of the inspection plan involves two sites (i.e., sewage treatment plants), including site 1 and site 2. Wherein two stations adopt different process flows, so the sewage treatment equipment of the two stations is different, but four equipment are adopted. The generation of the polling scheme for both sites will be described in detail below:

s1, marking and associating the site, name and category of each equipment to be inspected;

in site 1, there are four devices, respectively a flow meter (category code C, name code s4), a blower (category code D, name code s3), a stirrer (category code B, name code s2), and a dosing pump (category code F, name code s 1);

in station 2, there are also four devices, namely a water quality meter (category code a, name code s5), a stirrer (category code B, name code s7), an aerator (category code E, name code s6), and a dosing pump (category code F, name code s 8).

The category a indicates an instrument having a water quality detection function, the category B indicates a device having a stirring function, the category C indicates an instrument having a flow rate detection function, the category D indicates a device having an air blowing function, the category E indicates a device having an aeration function, and the category F indicates a device having a medicine adding function.

S2, summarizing the categories of all the equipment to be inspected marked in the S1 to form a category set;

the categories of the four devices of site 1 are: F. b, D, C, the categories of the four devices of site 2 are A, E, B, F, thus forming a set of categories: (A, B, C, D, E, F).

S3, selecting the category needing to be inspected from the category set in the step S2 to form an inspection category set;

due to the equipment with different functional attributes, whether the equipment needs to be patrolled or not and the interval period of the patrolling is different. Therefore, in the inspection, two devices, namely a water quality meter and a flowmeter, do not need to be inspected. Therefore, the category required for the patrol in the category set of step S2 is B, D, E, F, so that the patrol category set is formed as follows: (B, D, E, F).

S4, selecting a station to be inspected, and summarizing the types of equipment to be inspected of the station to be inspected to form a set of types to be inspected;

the embodiment relates to two sites, so that the patrol scheme of one of the sites can be selectively generated, or the patrol schemes of both the sites can be generated. In this embodiment, the polling schemes of two sites are generated as an example, and the following description is given:

selecting a station to be inspected: the category of the equipment to be inspected in the site 1 and the site 1 is F, B, D, C, so the category of the equipment to be inspected in the site 1 is as follows: (F, B, D, C);

selecting a station to be inspected: the category of the equipment to be inspected in the site 2 and the site 2 is A, E, B, F, so the category of the equipment to be inspected in the site 2 is as follows: (A, E, B, F).

S5, selecting the category shared with the inspection category set from the category set to be inspected to form a site inspection category set;

the to-be-patrolled category set of the station 1 is as follows: (F, B, D, C), the to-be-patrolled category set for site 2 is: (A, E, B, F), and the patrol classification set is: (B, D, E, F).

Thus, the set of categories to be patrolled for site 1 that coincide with the set of patrol categories is B, D, F, so that the set of site patrol categories that form site 1 is: (B, D, F); the category of the station 2, which is to be inspected, is B, E, F with the category of the inspection category set coinciding with that of the station 2, so that the station inspection category set of the station 2 is formed as follows: (B, E, F).

And S6, matching the names of the equipment to be inspected corresponding to the categories in the station inspection category set in the step S5 according to the association relationship, determining the inspection items corresponding to the names of the equipment to be inspected, and generating the inspection scheme corresponding to the station.

In the site 1, the name of the equipment to be inspected associated with the category B is S2, the name of the equipment to be inspected associated with the category D is S3, and the name of the equipment to be inspected associated with the category F is S1, so that the equipment to be inspected in the site 1 has the names S1, S2, and S3, and then the inspection plan of the site 1 is finally generated according to the inspection items of S1, S2, and S3 (S1, S2, and S3).

In the site 2, the device name to be inspected associated with the category B is S7, the device name to be inspected associated with the category E is S6, and the device name to be inspected associated with the category F is S8, so that the devices to be inspected in the site 2 have the names S6, S7, and S8, and then the inspection plan of the site 2 is finally generated according to the inspection items of the categories S6, S7, and S8 (S6, S7, and S8).

And then, the inspection personnel inspects the equipment to be inspected according to the inspection scheme of each station and uploads corresponding inspection data.

Example 2

As shown in the attached figure 2 of the drawings,

the generation of the routing inspection plan involves two sites (i.e. sewage treatment plants) including site 1 and site 2, the other sites being omitted. Wherein two stations adopt different process flows, so the sewage treatment equipment of the two stations is different, but four equipment are adopted. The generation of the polling scheme for both sites will be described in detail below:

s1, marking and associating the site, the process, the name and the category of each equipment to be inspected;

in the station 1, the processes are respectively as follows: filtration-conditioning-aerobic-precipitation, the category for each process step (i.e. the equipment classification in the figure) is: back flush pump, elevator pump, hold up valve and mud valve or/and slag discharge valve, the corresponding equipment name is respectively: pump X, pump Y, valve X, valve Y or/and valve Z.

In the station 2, the processes are respectively as follows: grating-anaerobic-conditioning-filtration, the category for each process step (i.e. the equipment classification in the figure) is: the device comprises a grating machine, a flow impeller or/and a stirring valve, a lifting pump and a water outlet valve, wherein the corresponding equipment names are respectively; a grid machine X, a flow impeller X or/and a valve W, a pump W and a valve A.

The present embodiment is explained only by the processes, equipment classifications, equipment names, and the like of the station 1 and the station 2, and other stations are referred to and executed.

S2, summarizing the categories of all the equipment to be inspected marked in the S1 to form a category set;

through gathering, all the items to be patrolled and examined of two websites include:

the method is divided by a process, and items to be inspected comprise grating, regulation, precipitation, aerobic, anaerobic and filtration; with equipment classification, the item of waiting to patrol and examine includes: a grating machine or/and a conveyor, a lifting pump or/and a stirrer or/and a liquid level meter, a mud valve or/and a slag discharge valve, a stirring valve or/and an aeration valve, a stirring valve or/and a flow pushing device, a water outlet valve or/and a float switch or/and a back washing pump.

S3, selecting the category needing to be inspected from the category set in the step S2 to form an inspection category set;

according to the inspection requirements, wherein the processes of regulation-aerobic-anaerobic-filtration are required to be inspected, the equipment classification of the inspection comprises a lifting pump or/and a liquid level meter, an aeration valve, an agitation valve, a water outlet valve or/and a back flush pump.

S4, selecting a station to be inspected, and summarizing the types of equipment to be inspected of the station to be inspected to form a set of types to be inspected;

the embodiment relates to two sites, so that the patrol scheme of one of the sites can be selectively generated, or the patrol schemes of both the sites can be generated. In this embodiment, the polling schemes of two sites are generated as an example, and the following description is given:

selecting a station to be inspected: the process of the station 1 and the process to be inspected in the station 1 comprises the following steps: filtration-conditioning-aerobic-precipitation, so the collection of categories to be inspected at station 1 (process) is: (filtration, conditioning, aerobic, precipitation); the equipment to be patrolled and examined in the station 1 is classified into: the back washing pump, the lift pump, the aeration valve, the mud valve or/and the slag discharge valve, and the to-be-inspected category set (category) of the station 1 is: (backwash pump, lift pump, aeration valve, sludge discharge valve or/and slag discharge valve).

Selecting a station to be inspected: the process of the station 2 to be inspected comprises the following steps: grid-anaerobic-conditioning-sedimentation, so the collection of categories to be inspected (process) of station 1 is: (grating, anaerobic, conditioning, sedimentation); the equipment to be inspected in the station 2 is classified into: the grillage machine, the impeller and/or the churn valve, the lift pump, the outlet valve, and the collection (classification) of the to-be-inspected categories of the station 2 are: (grid machine, impeller and/or churning valve, lift pump, outlet valve).

S5, selecting the category shared with the inspection category set from the category set to be inspected to form a site inspection category set;

the inspection process of the inspected station 1 comprises the following steps: adjusting, aerobic and filtering, wherein the equipment to be inspected is classified into: the lift pump, the aeration valve and the back flush valve, so the to-be-inspected category set (process) is as follows: (adjustment, aerobic and filtration), the category set (classification) to be inspected is as follows: (lift pump, aeration valve, backwash valve).

The inspection process of the inspected station 2 comprises the following steps: adjusting, anaerobic and filtering, wherein the equipment to be inspected is classified into: the lift pump, the stirring valve and the water outlet valve, so the collection (process) of the types to be inspected is as follows: (adjusting, anaerobic and filtering), the category set (classification) to be patrolled is as follows: (lift pump, agitation valve, outlet valve).

And S6, matching the names of the equipment to be inspected corresponding to the categories in the station inspection category set in the step S5 according to the association relationship, determining the inspection items corresponding to the names of the equipment to be inspected, and generating the inspection scheme corresponding to the station.

In the station 1, the final formed inspection scheme is as follows: the process in the inspection scheme comprises the following steps: the regulation, aerobic treatment and filtration are carried out, and the equipment in the inspection scheme is classified as follows: lift pump, aeration valve, back flush pump, the equipment name in the scheme of patrolling and examining is: pump Y, valve X, pump X. When the inspection personnel inspects the air, according to the inspection scheme, the lifting pump, particularly the pump Y, in the regulating tank, the aeration valve, particularly the valve X, in the aerobic tank and the back washing pump, particularly the pump X, in the filter tank are inspected, and inspection data are recorded.

In the station 2, the final formed inspection scheme is as follows: the process in the inspection scheme comprises the following steps: conditioning-anaerobic-filtration, the equipment in the inspection protocol is classified as: elevator pump, stirring valve, play water pump, the equipment name in the scheme of patrolling and examining is: pump W, valve A. When the inspection personnel inspects the water, according to the inspection scheme, the lifting pump, particularly the pump W, in the regulating tank, the stirring valve, particularly the valve W, in the anaerobic tank and the water outlet valve, particularly the valve A, in the filter tank are inspected, and inspection data are recorded.

Claims (7)

1. A generation method of a sewage treatment inspection scheme is characterized by comprising the following steps:

s1, marking and associating the site, name and category of each equipment to be inspected;

s2, summarizing the categories of all the equipment to be inspected marked in the step S1 to form a category set;

s3, selecting the category needing to be inspected from the category set in the step S2 to form an inspection category set;

s4, selecting a station to be inspected, and summarizing the types of equipment to be inspected of the station to be inspected to form a set of types to be inspected;

s5, selecting the category shared with the inspection category set from the category set to be inspected to form a site inspection category set;

and S6, matching the names of the equipment to be inspected corresponding to the categories in the station inspection category set in the step S5 according to the association relationship, determining the inspection items corresponding to the names of the equipment to be inspected, and generating the inspection scheme corresponding to the station.

2. The method for generating the sewage treatment inspection plan according to claim 1, wherein the method comprises the following steps: when the category of the equipment to be inspected is marked, the marked equipment to be inspected is functionally classified.

3. The method for generating the sewage treatment inspection plan according to claim 1, wherein the method comprises the following steps:

in step S1, marking and associating the site, name, category, and routing inspection item of each device to be routed;

in step S3, selecting a category to be inspected from the category set in step S2 to form an inspection category set;

in step S6, the names of the devices to be inspected corresponding to the categories in the site inspection category set in step S5 are matched according to the association relationship in step S1, and the inspection items corresponding to the names of the devices to be inspected are matched according to the association relationship in step S1, so as to generate the inspection plan corresponding to the site.

4. The method for generating the sewage treatment inspection plan according to claim 3, wherein the method comprises the following steps:

in step S3, selecting a category to be inspected from the category set in step S2 to form an inspection category set; determining the routing inspection items of each category in the routing inspection category set according to the incidence relation of the step S1, and generating a routing inspection custom module comprising the categories and the routing inspection items corresponding to the categories;

in step S6, the names of the devices to be inspected corresponding to the categories in the site inspection category set in step S5 are matched according to the association relationship in step S1, the inspection custom modules corresponding to the categories in the site inspection category set are matched, and an inspection plan including the names of the devices to be inspected and the inspection items of the corresponding sites is generated.

5. The method for generating the sewage treatment inspection plan according to claim 1, wherein the method comprises the following steps:

in step S1, marking and associating the site, name and category of each equipment to be inspected;

in step S3, selecting a category to be inspected from the category set in step S2 to form an inspection category set; associating corresponding inspection items according to each category in the inspection category set;

in step S6, the names of the devices to be inspected corresponding to the categories in the site inspection category set in step S5 are matched according to the association relationship in step S1, and the inspection items corresponding to the names of the devices to be inspected are matched according to the association relationship in step S3, so as to generate the inspection plan corresponding to the site.

6. The method for generating the sewage treatment inspection plan according to claim 1, wherein the method comprises the following steps:

in step S3, selecting a category to be inspected from the category set in step S2 to form an inspection category set; associating corresponding polling items according to the classes in the polling class set, and generating a polling custom module comprising the classes and the polling items corresponding to the classes;

in step S6, the names of the devices to be inspected corresponding to the categories in the site inspection category set in step S5 are matched according to the association relationship in step S1, the inspection custom modules corresponding to the categories in the site inspection category set are matched, and an inspection plan including the names of the devices to be inspected and the inspection items of the corresponding sites is generated.

7. The utility model provides a sewage treatment patrols and examines generation system of scheme which characterized in that includes:

the marking and associating module is used for marking and associating the site, the name and the category of each equipment to be patrolled;

the category set forming module is used for summarizing the categories of all the equipment to be inspected marked by the marks and the association module and forming a category set;

the inspection class set forming module is used for selecting classes to be inspected from the class set to form an inspection class set;

the system comprises a to-be-patrolled class set forming module, a to-be-patrolled class set generating module and a to-be-patrolled class set generating module, wherein the to-be-patrolled class set generating module is used for selecting a to-be-patrolled station, summarizing the class of to-be-patrolled equipment of the to;

the station polling category set forming module is used for selecting categories which are shared with the polling category set from the category set to be polled to form a station polling category set;

and the inspection scheme generating module is used for matching the names of the equipment to be inspected corresponding to the categories in the site inspection category set according to the incidence relation, determining inspection items corresponding to the names of the equipment to be inspected, and generating the inspection scheme corresponding to the site.

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