CN116611804A - Heat supply network inspection supervision method, electronic equipment and storage medium - Google Patents

Abstract

The embodiment of the invention provides a heat supply network inspection supervision method, electronic equipment and a storage medium, wherein the method comprises the following steps: receiving a first operation instruction, wherein the first operation instruction is used for inquiring the inspection condition of a heat supply network inspection personnel on the heat supply network; according to a first operation instruction, a heat supply network map interface of a heat supply network management system is opened, the heat supply network map interface is used for displaying a completed inspection route, a target inspection route, pipeline laying information of a heat supply pipeline and heat supply network inspection supervision results of heat supply network inspection personnel, all information displayed in the heat supply network map interface is obtained through information processing by a controller in the heat supply network management system, the heat supply network management personnel can check the inspection condition of each inspection personnel in a certain period of time through the heat supply network map interface, inspection work of the heat supply network inspection personnel can be comprehensively and effectively supervised, and accordingly the guarantee capability of heat supply pipeline equipment can be improved.

Description

Heat supply network inspection supervision method, electronic equipment and storage medium

Technical Field

The present invention relates to, but not limited to, the field of data processing technologies, and in particular, to a method for monitoring and inspecting a heat supply network, an electronic device, and a storage medium.

Background

The network formed by the heat supply pipelines has the characteristics of wide range, complexity and the like, so that a great amount of manpower and material resources are required to be input for treatment, such as inspection, maintenance, repair, ventilation and the like, in order to ensure the safe and stable operation of the heat supply system.

For the inspection work of the heat supply pipeline facility, the inspection is usually performed by using manpower, and in order to ensure that the inspection personnel can finish the inspection work of the whole heat supply pipeline network, the inspection personnel needs to issue an inspection plan and an inspection route and supervise the inspection work of the inspection personnel. In the related art, the patrol work of the patrol personnel is mainly performed by actively reporting the patrol personnel and checking by a supervisor, and the work of the patrol personnel cannot be comprehensively and effectively supervised.

Disclosure of Invention

The following is a summary of the subject matter described in detail herein. This summary is not intended to limit the scope of the claims.

The embodiment of the invention mainly aims to provide a heat supply network inspection supervision method, electronic equipment and a storage medium, which can comprehensively and effectively supervise inspection work of heat supply network inspection personnel, so that the guarantee capability of heat supply pipeline equipment can be improved.

In a first aspect, an embodiment of the present invention provides a method for monitoring and inspecting a heat supply network, which is applied to a heat supply network management system, and the method includes:

receiving a first operation instruction, wherein the first operation instruction is used for inquiring the inspection condition of a heat supply network inspection personnel on the heat supply network;

opening a heat supply network map interface in the heat supply network management system according to the first operation instruction, wherein the heat supply network map interface is used for displaying the completed inspection route, the target inspection route and the pipeline laying information of a heat supply pipeline of the heat supply network inspection personnel and the heat supply network inspection supervision result;

the method for generating the heat supply network map interface comprises the following steps:

acquiring patrol data sent by a heat supply network patrol monitoring terminal corresponding to the heat supply network patrol personnel;

generating a first inspection route according to the inspection data, wherein the first inspection route is a route which the heat supply network inspection monitoring terminal passes in a first time;

matching the first routing inspection route with the target routing inspection route to obtain a heat supply network routing inspection supervision result;

the target routing inspection route is a route which is set on a heat supply network map and is required to be inspected by an inspector corresponding to the heat supply network routing inspection supervision terminal in target time, and the heat supply network map is a map marked with pipeline laying information of a heat supply pipeline.

In some optional embodiments, the inspection information includes location information, the pipe laying information includes heat pipe laying type information, and comparing the first inspection route with a target inspection route to obtain a heat supply network inspection supervision result includes:

determining a patrol sub-route of the heat supply pipeline corresponding to the heat pipe laying type information according to the heat pipe laying type information;

connecting according to a plurality of patrol sub-routes to generate the target patrol route;

and matching the position information of the first routing inspection route with the target routing inspection route to obtain a heat supply network routing inspection supervision result.

In some optional embodiments, in a case that the heat pipe laying type information is a first laying type, the inspection sub-route corresponding to the first laying type is a street route parallel to the heat supply pipeline corresponding to the first laying type, and the first laying type characterizes a laying manner in which the heat supply pipeline is arranged beside a street and the heat supply pipeline is parallel to the street;

or alternatively, the process may be performed,

when the heat pipe laying type information is a second laying type, the inspection sub-route corresponding to the second laying type is a nearest street route for connecting two ends of the heat supply pipeline corresponding to the second laying type, and the second laying type represents a laying mode of burying the heat supply pipeline under the ground;

Or alternatively, the process may be performed,

and under the condition that the heat pipe laying type information is a third laying type, the inspection sub-route corresponding to the third laying type is a street route which is parallel to the connecting line of the two ends of the heat supply pipeline and is closest to the connecting line of the two ends of the heat supply pipeline corresponding to the third laying type, and the third laying type represents a laying mode of crossing the heat supply pipeline across a road.

In some optional embodiments, the heat supply network map interface further includes an unrequired route among the target patrol routes, the image of the unrequired route being different from the image of the target patrol route;

the method for generating the image of the non-patrol route comprises the following steps:

under the condition that the result of the heat supply network inspection supervision is that part of routes in the first inspection route are not matched with the target inspection route, determining the route which is not matched with the first inspection route in the target inspection route as an unrequired route;

and carrying out image labeling processing on the non-patrol route so as to generate an image of the non-patrol route.

In some alternative embodiments, the method further comprises:

receiving a second operation instruction for the non-patrol route;

and displaying the percentage data of the non-patrol route to the target patrol route, the non-patrol reason information of the non-patrol route and the suggestion information representing whether the target patrol route needs to be changed according to the second operation instruction.

In some optional embodiments, the heating pipeline includes pipeline type information, the inspection information includes inspection time information, and the inspection time information characterizes a time of the heat supply network inspection monitor terminal in a position corresponding to the pipeline type information;

the heat supply network map interface further includes an unfinished patrol route among the target patrol routes, an image of the unfinished patrol route being different from an image of the target patrol route:

the method for generating the image of the unfinished routing inspection route comprises the following steps:

determining a heat supply pipeline corresponding to the position information according to the position information sent by the heat supply network inspection monitoring terminal;

determining pipeline type information according to the heating pipeline corresponding to the position information;

determining preset inspection time information according to the pipeline type information;

marking position information corresponding to the patrol time information smaller than the preset patrol time information, so as to determine an unfinished patrol route in the target patrol route according to the marked position information;

and carrying out image labeling processing on the unfinished routing inspection route so as to generate an image of the unfinished routing inspection route.

In some alternative embodiments, the method further comprises:

receiving a third operation instruction for the incomplete patrol route;

and displaying the percentage data of the incomplete inspection route in the target inspection route, the inspection time information of the incomplete inspection route and the reason information of the incomplete inspection according to the third operation instruction.

In some alternative embodiments, the method further comprises:

receiving a fourth operation instruction;

and sending inspection requirement information to a heat supply network inspection supervision terminal of the heat supply network inspection personnel according to the fourth operation instruction, wherein the inspection requirement information comprises inspection position information of the heat supply pipeline with the problems and inspection step information of the heat supply pipeline with the problems.

In a second aspect, an embodiment of the present invention provides an electronic device, including: the system comprises a memory, a processor and a computer program stored in the memory and capable of running on the processor, and is characterized in that the heat supply network inspection supervision method in the first aspect is realized when the processor executes the computer program.

In a third aspect, a computer storage medium stores computer executable instructions for performing the method of heat network inspection supervision according to the first aspect.

The beneficial effects of the invention include: when a heat supply network manager needs to inquire the condition of the heat supply network work of the heat supply network patrol manager, the heat supply network manager can click an icon for entering a heat supply network map interface in the heat supply network management system, then the heat supply network management system receives a first operation instruction for inquiring the patrol condition of the heat supply network patrol manager on the heat supply network, then the heat supply network management system opens the heat supply network map interface of the heat supply network management system according to the first operation instruction, and the heat supply network map interface comprises the contents of the completed patrol route of the heat supply network patrol manager, a target patrol route, pipeline laying information of a heat supply pipeline, a heat supply network patrol supervision result and the like, so that the heat supply network manager can clearly see the current completed patrol route of the heat supply network patrol manager from the heat supply network map interface, and can clearly know the overall condition of the current patrol or the patrol condition of a single heat supply network patrol manager according to the heat supply network patrol supervision result; the method comprises the steps that a finished inspection route is a route map generated according to inspection data sent by a heat supply network inspection monitoring terminal used by heat supply network inspection personnel in the first time, a target inspection route is set on a heat supply network map marked with pipeline laying information of heat supply pipelines by heat supply network management personnel, different target inspection routes can be set for each heat supply network inspection personnel, inspection of the heat supply pipelines marked on the heat supply network map is finished through a plurality of heat supply network inspection personnel, the pipeline laying information of the heat supply pipelines of the heat supply network map is marked according to actual pipeline laying conditions, and the position relationship between the heat supply pipelines and the road information on the map is corresponding. In the technical scheme of the embodiment, all information displayed in the heat supply network map interface is obtained by information processing through a controller in the heat supply network management system, and heat supply network management staff can check the patrol situation of each patrol staff in a certain period of time through the heat supply network map interface, so that the patrol work of the heat supply network patrol staff can be comprehensively and effectively supervised, and the guarantee capability of heat supply pipeline equipment can be improved.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and claims hereof as well as the appended drawings.

Drawings

FIG. 1 is a schematic diagram of a system platform architecture for performing a heat supply network patrol monitoring method according to an embodiment of the present invention;

fig. 2 is a flowchart of a heat supply network inspection supervision method according to an embodiment of the present invention;

FIG. 3 is a schematic diagram of a heat supply network view interface provided by one embodiment of the present invention;

FIG. 4 is a first partially enlarged schematic illustration of a heat supply network view interface provided in accordance with an embodiment of the invention;

FIG. 5 is a second partial enlarged schematic view of a heat supply network view interface provided by an embodiment of the present invention;

fig. 6 is a flowchart of a method for supervising a heat supply network patrol according to another embodiment of the present invention;

fig. 7 is a flowchart of a method for supervising a heat supply network patrol according to another embodiment of the present invention;

fig. 8 is a flowchart of a method for supervising a heat supply network patrol according to another embodiment of the present invention;

fig. 9 is a flowchart of a heat supply network inspection supervision method according to another embodiment of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present invention more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

It should be noted that although functional block division is performed in a device diagram and a logic sequence is shown in a flowchart, in some cases, the steps shown or described may be performed in a different order than the block division in the device, or in the flowchart. The terms first, second and the like in the description, in the claims and in the above-described figures, are used for distinguishing between similar objects and not necessarily for describing a particular sequential or chronological order.

The network formed by the heat supply pipelines has the characteristics of wide range, complexity and the like, so that a great amount of manpower and material resources are required to be input for treatment, such as inspection, maintenance, repair, ventilation and the like, in order to ensure the safe and stable operation of the heat supply system.

For the inspection work of the heat supply pipeline facility, the inspection is usually performed by using manpower, and in order to ensure that the inspection personnel can finish the inspection work of the whole heat supply pipeline network, the inspection personnel needs to issue an inspection plan and an inspection route and supervise the inspection work of the inspection personnel. In the related art, the patrol work of the patrol personnel is mainly performed by actively reporting the patrol personnel and checking by a supervisor, and the work of the patrol personnel cannot be comprehensively and effectively supervised.

In order to solve the above-mentioned problems, the embodiment of the present invention provides a heat supply network inspection and supervision method, an electronic device and a storage medium, where the heat supply network inspection and supervision method is applied to a heat supply network management system, the method includes: receiving a first operation instruction, wherein the first operation instruction is used for inquiring the inspection condition of a heat supply network inspection personnel on the heat supply network; opening a heat supply network map interface in a heat supply network management system according to the first operation instruction, wherein the heat supply network map interface is used for displaying the completed inspection route, the target inspection route and the pipeline laying information of a heat supply pipeline of a heat supply network inspector and the heat supply network inspection supervision result; the method for generating the heat supply network map interface comprises the following steps: acquiring patrol data sent by a heat supply network patrol monitoring terminal corresponding to a heat supply network patrol personnel; generating a first inspection route according to the inspection data, wherein the first inspection route is a route which the heat supply network inspection monitoring terminal passes in a first time; matching the first routing inspection route with the target routing inspection route to obtain a heat supply network routing inspection supervision result; the target routing inspection route is a route which is required to be inspected by an inspector corresponding to a heat supply network routing inspection supervision terminal arranged on a heat supply network map, and the heat supply network map is a map marked with pipeline laying information of a heat supply pipeline.

In the technical scheme of the embodiment, when a heat supply network manager needs to inquire the condition of the heat supply network work of the heat supply network inspector, the heat supply network manager can click an icon for entering a heat supply network map interface in the heat supply network manager, then the heat supply network manager receives a first operation instruction for inquiring the condition of the heat supply network by the heat supply network inspector, then the heat supply network manager opens the heat supply network map interface in the heat supply network manager according to the first operation instruction, and the heat supply network map interface comprises the contents of the completed inspection route, the target inspection route, the pipeline laying information of a heat supply pipeline, the heat supply network inspection supervision result and the like of the heat supply network inspector, so that the heat supply network inspector can clearly see the current completed inspection route of the heat supply network inspector from the heat supply network map interface, and can clearly know the current overall condition of inspection or the inspection condition of a single heat supply network inspector according to the heat supply network inspection supervision result; the method comprises the steps that a finished inspection route is a route map generated according to inspection data sent by a heat supply network inspection monitoring terminal used by heat supply network inspection personnel in the first time, a target inspection route is set on a heat supply network map marked with pipeline laying information of heat supply pipelines by heat supply network management personnel, different target inspection routes can be set for each heat supply network inspection personnel, inspection of the heat supply pipelines marked on the heat supply network map is finished through a plurality of heat supply network inspection personnel, the pipeline laying information of the heat supply pipelines of the heat supply network map is marked according to actual pipeline laying conditions, and the position relationship between the heat supply pipelines and the road information on the map is corresponding. In the technical scheme of the embodiment, all information displayed in the heat supply network map interface is obtained by information processing through a controller in the heat supply network management system, and heat supply network management staff can check the patrol situation of each patrol staff in a certain period of time through the heat supply network map interface, so that the patrol work of the heat supply network patrol staff can be comprehensively and effectively supervised, and the guarantee capability of heat supply pipeline equipment can be improved.

Embodiments of the present invention will be further described below with reference to the accompanying drawings.

Fig. 1 is a schematic diagram of a system platform architecture for performing an uplink co-channel interference cancellation method according to an embodiment of the present invention.

In the example of fig. 1, the system platform architecture 100 is provided with a processor 110 and a memory 120, wherein the processor 110 and the memory 120 may be connected by a bus or otherwise, in fig. 1 by way of example.

Memory 120, as a non-transitory computer-readable storage medium, may be used to store non-transitory software programs as well as non-transitory computer-executable programs. In addition, memory 120 may include high-speed random access memory, and may also include non-transitory memory, such as at least one magnetic disk storage device, flash memory device, or other non-transitory solid state storage device. In some embodiments, memory 120 optionally includes memory remotely located relative to processor 110, which may be connected to the adrenal functional tumor typing positioning apparatus via a network. Examples of such networks include, but are not limited to, the internet, intranets, local area networks, mobile communication networks, and combinations thereof.

It will be appreciated by those skilled in the art that the system platform architecture 100 may be applied to a 5G communication network system, a mobile communication network system that is evolved later, and the like, and the present embodiment is not limited thereto.

Those skilled in the art will appreciate that the system platform architecture 100 shown in fig. 1 is not limiting of the embodiments of the invention, and may include more or fewer components than shown, or may combine certain components, or a different arrangement of components.

Based on the system platform architecture, various embodiments of the heat supply network inspection supervision method of the present invention are presented below to solve the problems in the foregoing embodiments.

Referring to fig. 2, fig. 2 is a flowchart of a heat supply network inspection supervision method according to an embodiment of the present invention, and the heat supply network inspection supervision method according to an embodiment of the present invention may include, but is not limited to, step S100 and step S200.

Step S100, a first operation instruction is received, wherein the first operation instruction is used for inquiring the inspection condition of a heat supply network inspection personnel on the heat supply network.

Specifically, when the heat supply network manager needs to inquire about the condition of the heat supply network patrol manager for the heat supply network patrol, the heat supply network manager can click an icon for entering the heat supply network map interface in the heat supply network manager, and then the heat supply network manager receives a first operation instruction for inquiring the heat supply network patrol manager about the heat supply network patrol condition, and then the heat supply network manager opens the heat supply network map interface in the heat supply network manager according to the first operation instruction.

It should be noted that, a hyperlink icon entering the heat supply network map interface is set on the main interface of the heat supply network management system, and then the first operation instruction may be to move the cursor to the icon of the heat supply network map interface, and then to perform a clicking operation on the icon of the heat supply network map interface; or, a drop-down menu is set on the main interface of the heat supply network management system, and an icon of the heat supply network map interface is set in the drop-down menu, then the first operation instruction may be to move the cursor to the drop-down menu, pop up the icon of the heat supply network map interface by the drop-down menu, move the cursor to the icon of the heat supply network map interface, and then perform a clicking operation on the icon of the heat supply network map interface.

Step S200, a heat supply network map interface in a heat supply network management system is opened according to a first operation instruction, and the heat supply network map interface is used for displaying the completed patrol route, the target patrol route and the pipeline laying information of a heat supply pipeline of a heat supply network patrol personnel and the heat supply network patrol supervision result; the target routing inspection route is a route which is required to be inspected by an inspector corresponding to a heat supply network routing inspection supervision terminal arranged on a heat supply network map, and the heat supply network map is a map marked with pipeline laying information of a heat supply pipeline;

The method for generating the heat supply network map interface comprises the following steps: acquiring patrol data sent by a heat supply network patrol monitoring terminal corresponding to a heat supply network patrol personnel; generating a first inspection route according to the inspection data, wherein the first inspection route is a route which the heat supply network inspection monitoring terminal passes in a first time; and matching the first inspection route with the target inspection route to obtain a heat supply network inspection supervision result.

Specifically, referring to fig. 3-4, after receiving the first operation instruction, the heat management system opens a heat management system heat management network map interface according to the first operation instruction, where the heat management system map interface includes a completed inspection route 310, a target inspection route 320, pipe laying information 330 of a heat supply pipe, and a heat management system inspection monitoring result 340 of the heat management system inspection personnel, and the heat management system can process the collected inspection work data of the heat management system inspection personnel by using the information content displayed by the preset device of the heat management system map interface, and display, in real time, the information content such as the completed inspection route 310, the target inspection route 320, the pipe laying information 330 of the heat supply pipe, and the heat management system inspection monitoring result 340 of the heat management system inspection personnel on the heat management map interface, where the heat management personnel need to inspect the inspection work of the heat management system inspection personnel, and the heat management system inspection personnel can intuitively acquire the overall situation of the heat management system inspection work only by performing the first operation instruction, and the heat management system inspection personnel need not to upload the data to be inspected to obtain the real-time inspection work inspection result.

In some alternative embodiments, referring to fig. 3-4, the target inspection route 320 is a route that an inspector corresponding to a heat supply network inspection monitor terminal set on a heat supply network map needs to inspect in a target time, and the target inspection route 320 is a route generated by a heat supply network administrator according to an inspection work plan, so as to ensure that the heat supply network inspector can complete inspection work in a specified time, and in addition to issuing the target inspection route 320, optimization adjustment needs to be performed on the target inspection route 320 according to a heat supply network inspection monitor result 340 and feedback of the heat supply network inspector during each day or in a working period. In the modification process, only the target clients in the target inspection route 320 need to be increased or reduced in the operation interface of the target inspection route 320, the heat management system calculates a new target inspection route 320 according to the data of the target clients, the electronic map street data and the pipeline laying information 330 of the heat supply pipeline, and sends the updated new target inspection route 320 to the heat supply network inspection supervision terminal of the heat supply network inspection personnel so as to finish the issuing of the inspection task.

In some alternative embodiments, referring to fig. 3-5, the heat supply network map in the heat supply network map interface is a map marked with the pipe laying information 330 of the heat supply pipe, the heat supply pipe is marked on the actual digital map by the heat supply network manager according to the position relationship between the heat pipe laid by the customer condition of service, different types of line segments can be used for marking the heat supply pipe for the two-dimensional digital map, and the marked line segments can be different in shape or thickness according to the different heat pipe laying type information of the heat supply pipe.

Referring to fig. 5, for example: in the case that the heat pipe laying type information is the first laying type 510, the first laying type 510 characterizes a laying mode that a heat supply pipeline is arranged beside a street and is parallel to the street, and the heat supply pipeline of the type is marked on an electronic map by using a continuous straight line; also for example: in case the heat pipe laying type information is the second laying type 520, the second laying type 520 characterizes the laying way of burying the heating pipe under the ground, then the heating pipe of this type may be marked with a dashed line; also for example: in the case that the heat pipe laying type information is the third laying type 530, the third laying type 530 characterizes a laying mode of crossing the heat supply pipeline across the road, and can be marked by using a trapezoid-like line segment; for another example, in the case where the heat pipe laying type information is the fourth laying type 540, the fourth laying type 540 characterizes an unfinished state of the heat supply pipe in the course of construction, and may be marked with a broken line of a different color or a different thickness corresponding to the second laying type 520.

In some alternative embodiments, referring to fig. 3-5, after receiving the first operation instruction, or after receiving the inspection data sent by the heat supply network inspection monitor terminal corresponding to the heat supply network inspection personnel, a first inspection route that has been inspected by the heat supply network inspection personnel is generated according to the inspection data, and in the case of normal inspection, the first inspection route is overlapped with the target inspection route, in order to make a distinction between the first inspection route and the target inspection route on the display interface, the target inspection route may be a statically displayed route image, and the first inspection route is a dynamically displayed route image with directivity, and it may be understood that the first inspection route is a route image generated in real time according to the inspection data uploaded by the heat supply network inspection monitor terminal; then, the first inspection route may be matched with the target inspection route 320 to obtain a heat supply network inspection monitoring result 340, where the heat supply network inspection monitoring result 340 includes at least one of the following: the completed patrol route occupies the percentage data of the target patrol route; the percentage data of the non-patrol route to the target patrol route 320 after the preset time is exceeded; the percentage data of the incomplete routing inspection route to the target routing inspection route 320; non-patrol reason information of the non-patrol route; suggested information that characterizes whether the target routing route 320 needs to be altered; patrol time information of the incomplete patrol route; and (5) incomplete patrol reason information.

It should be noted that, the completed patrol route 310 may include a first patrol route, or may include a second patrol route, or may further include a third patrol route, and the completed patrol route 310 may be set according to the number of heat-supply network patrol personnel and/or the number of target patrol devices, which is not limited in this embodiment.

In some optional embodiments, when the heat supply network manager needs to inquire about the condition of the heat supply network work of the heat supply network inspector, the heat supply network manager can click an icon for entering the heat supply network map interface in the heat supply network manager, then the heat supply network manager receives a first operation instruction for inquiring the condition of the heat supply network by the heat supply network inspector, then the heat supply network manager opens the heat supply network map interface in the heat supply network manager according to the first operation instruction, and the heat supply network map interface comprises the contents of the completed inspection route, the target inspection route, the pipeline laying information of the heat supply pipeline, the heat supply network inspection supervision result and the like of the heat supply network inspector, so that the heat supply network inspector can clearly see the current completed inspection route of the heat supply network inspector from the heat supply network map interface, and can clearly know the current overall condition of inspection or the inspection condition of a single heat supply network inspector according to the heat supply network inspection supervision result; the method comprises the steps that a finished inspection route is a route map generated according to inspection data sent by a heat supply network inspection monitoring terminal used by heat supply network inspection personnel in the first time, a target inspection route is set on a heat supply network map marked with pipeline laying information of heat supply pipelines by heat supply network management personnel, different target inspection routes can be set for each heat supply network inspection personnel, inspection of the heat supply pipelines marked on the heat supply network map is finished through a plurality of heat supply network inspection personnel, the pipeline laying information of the heat supply pipelines of the heat supply network map is marked according to actual pipeline laying conditions, and the position relationship between the heat supply pipelines and the road information on the map is corresponding. In the technical scheme of the embodiment, all information displayed in the heat supply network map interface is obtained by information processing through a controller in the heat supply network management system, and heat supply network management staff can check the patrol situation of each patrol staff in a certain period of time through the heat supply network map interface, so that the patrol work of the heat supply network patrol staff can be comprehensively and effectively supervised, and the guarantee capability of heat supply pipeline equipment can be improved.

Referring to fig. 6, fig. 6 is a flowchart of a heat supply network inspection supervision method according to an embodiment of the present invention, where inspection information includes location information, pipe laying information includes heat pipe laying type information, and "matching a first inspection route with a target inspection route to obtain a heat supply network inspection supervision result" in step S200 of the heat supply network inspection supervision method according to the embodiment of the present invention may include, but is not limited to, steps S610, S620, and S630.

Step S610, determining a patrol sub-route of the heat supply pipeline corresponding to the heat pipe laying type information according to the heat pipe laying type information.

Specifically, referring to fig. 5, different heat pipe laying type information is different in pipe structure laid on the street, and thus, it is necessary to set different patrol sub-routes of the heat supply pipe for the different heat pipe laying type information.

For example: in the case where the heat pipe laying type information is the first laying type 510, the inspection sub-route corresponding to the first laying type 510 is a street route parallel to the heat supply pipe corresponding to the first laying type 510, and the first laying type 510 characterizes a laying manner in which the heat supply pipe is disposed beside the street and the heat supply pipe is parallel to the street. Because the heat supply pipeline is arranged parallel to the street and beside the street, the patrol personnel can observe the condition of the heat supply pipeline in a short distance only by moving along the street, and can use the related patrol instrument to check the quality and the running condition of the heat supply pipeline.

Also for example: in the case that the heat pipe laying type information is the second laying type 520, the inspection sub-route corresponding to the second laying type 520 is a nearest street route for connecting both ends of the heat supply pipe corresponding to the second laying type 520, and the second laying type 520 characterizes a laying manner in which the heat supply pipe is buried under the ground. Because the heating pipeline adopts the laying mode buried in the ground, usually because that section heating pipeline is nearest to the customer, but the road is not formed on the ground in that section of area, or other topography problems exist, then in the process of inspection, the heat supply network inspection personnel can not walk according to the route of the heating pipeline, and can only inspect the two ends of the heating pipeline buried in the ground, for example, the unsealed cover body of the ground at the two ends can check whether steam is emitted from the ground to the ground or can check the environmental data of the heating pipeline buried in the ground from the ground through a channel by an instrument.

Also for example: in the case that the heat pipe laying type information is the third laying type 530, the inspection sub-route corresponding to the third laying type 530 is a street route parallel to and closest to the line connecting both ends of the heat supply pipe corresponding to the third laying type 530, and the third laying type 530 characterizes a laying manner of crossing the heat supply pipe across the road. When the heat pipe laying type information of the heat supply pipeline is a laying mode crossing the road, the road is proved to be characterized as an intersection, or other intersections, if the laying mode is still the first laying type 510, vehicles or pedestrians cannot pass through the road, therefore, the heat supply pipeline cannot be directly laid along the street road on the ground, a certain height is required to be lifted, then the heat supply pipeline is descended to the height of the first laying type 510 after crossing the road, the inspection route of a heat supply network inspection personnel can be identical to the street road crossed by the heat supply pipeline, and the inspection route of the heat supply network inspection personnel can be identical to the pipeline laying information on a heat supply network map interface, and the heat supply network inspection personnel can inspect the pipeline laying of the section from the road upwards.

Step S620, connecting according to the plurality of tour sub-routes to generate a target tour route.

Specifically, a plurality of patrol sub-routes of the heat supply pipeline corresponding to different heat pipe laying type information are connected front and back, a target patrol route can be formed, and the target patrol route is issued to a heat supply network patrol monitoring terminal corresponding to a heat supply network patrol personnel so as to issue a patrol task to the heat supply network patrol personnel.

Step S630, matching is carried out according to the position information of the first routing inspection route and the target routing inspection route, and a heat supply network routing inspection supervision result is obtained.

Specifically, a heat supply network patrol personnel can carry out patrol on a heat supply pipeline facility of a heat supply network according to a target patrol route received by a heat supply network patrol monitoring terminal, in the process of carrying out patrol on the heat supply network patrol personnel, the carried heat supply network patrol monitoring terminal can record passing position information, a first patrol route is generated according to the recorded position information, the first patrol route is a patrol route completed by the heat supply network patrol personnel, then the position information of the first patrol route is matched with the target patrol route, and the heat supply network patrol monitoring result of the target patrol route can be obtained, so that the heat supply network patrol monitoring result of the heat supply network patrol personnel can be obtained, the heat supply network patrol monitoring result can be real-time patrol, or can be patrol after one day of patrol, or can be patrol after one week/one month of patrol, statistics can be carried out according to actual conditions, and the heat supply network patrol personnel can check through clicking a heat supply network map interface.

Referring to fig. 7, fig. 7 is a flowchart of a heat supply network inspection supervision method according to an embodiment of the present invention, where the heat supply network map interface further includes an unverified route in the target inspection route, and an image of the unverified route is different from an image of the target inspection route.

Step S710, receiving a second operation instruction for the non-patrol route;

step S720, displaying the percentage data of the non-patrol route to the target patrol route, the non-patrol reason information of the non-patrol route and the suggestion information representing whether the target patrol route needs to be changed according to the second operation instruction; the method for generating the image of the non-patrol route comprises the following steps: under the condition that the result of the heat supply network inspection supervision is that part of routes in the first inspection route are not matched with the target inspection route, determining the route which is not matched with the first inspection route in the target inspection route as an unrequired route; and performing image labeling processing on the non-patrol route to generate an image of the non-patrol route.

In some optional embodiments, after finishing a one-day inspection job or after a preset time (set according to an actual situation), the heat supply network management system performs statistical processing according to inspection data sent by the heat supply network inspection monitoring terminal received in one day to obtain a heat supply network inspection monitoring result, and when the heat supply network inspection monitoring result is that a part of routes in the first inspection route are not matched with the target inspection route, the route which is not matched with the first inspection route in the target inspection route can be determined as an uncancelled route, and the percentage data of the uncancelled route in the target inspection route is calculated, and the heat supply network inspection personnel is required to upload reason information and advice information about the inspection job for the uncancelled reason of the uncancelled route, then the percentage data of the uncancelled route in the target inspection route, the reason information about the uncancelled route and advice information about whether the target inspection route needs to be changed can be queried in the heat supply network map interface; the heat supply network manager can input a second operation instruction in the heat supply network map interface, and the heat supply network management system receives the second operation instruction of the non-patrol route and displays the percentage data of the non-patrol route to the target patrol route, the non-patrol reason information of the non-patrol route and the suggestion information for representing whether the target patrol route needs to be changed or not according to the second operation instruction. That is, the heat supply network management system automatically counts the condition of the non-patrol route and sends the report of the non-patrol reason and the advice information of the patrol work to the heat supply network patrol monitoring terminal, for example, the non-patrol reason is that the road is under construction and can not be patrol according to the requirement of the target patrol route, then the heat supply network manager can be required to modify the route of the part of the target patrol route, or the heat supply network patrol manager carries out construction labeling operation on the part of the route through the heat supply network patrol monitoring terminal, so that the statistics of the part of the route is not carried out in the period of road construction, unnecessary attention of the heat supply network patrol manager on the heat supply network patrol manager who does not complete the patrol work can be reduced, the system does not need to carry out ineffective statistics on the part of the condition, and the work efficiency can be improved. The construction labeling operation may be that a heat supply network patrol personnel clicks and selects the part of route at a heat supply network patrol monitoring terminal, then the terminal interface pops up the uploading site construction picture and the construction time information, the heat supply network patrol personnel uploads the uploading site construction picture and fills in the construction time information, and then the uploading site construction picture and the construction time information are submitted to a heat supply network map interface, and after the heat supply network manager checks, clicking and confirming is performed, then the heat supply network management system does not count the part of route.

It should be noted that, a hyperlink icon for inquiring the non-patrol route is set on the heat supply network map interface of the heat supply network management system, and then the second operation instruction may be to move the cursor to the hyperlink icon of the non-patrol route, and then to click the hyperlink icon of the non-patrol route; or, on the heat supply network map interface of the heat supply network management system, the target inspection route is marked with an inspection route, and then the second operation instruction may be to move the cursor onto the inspection route and click the inspection route.

Referring to fig. 8, fig. 8 is a flowchart of a heat supply network inspection and supervision method provided by an embodiment of the present invention, where a heat supply pipeline includes pipeline type information, inspection information includes inspection time information, the inspection time information characterizes a time of a heat supply network inspection and supervision terminal staying at a position corresponding to the pipeline type information, and the steps of the heat supply network inspection and supervision method of the embodiment of the present invention may further include, but are not limited to, steps S810 and S820.

Step S810, receiving a third operation instruction for the incomplete patrol route;

step S820, displaying the percentage data of the incomplete inspection route to the target inspection route, the inspection time information of the incomplete inspection route and the reason information of the incomplete inspection according to the third operation instruction; the method for generating the image of the unfinished routing inspection route comprises the following steps: firstly, determining a heat supply pipeline corresponding to the position information according to the position information sent by a heat supply network inspection monitoring terminal; determining pipeline type information according to the heating pipeline corresponding to the position information; determining preset patrol time information according to the pipeline type information; marking position information corresponding to patrol time information smaller than preset patrol time information, so as to determine unfinished patrol routes in the target patrol routes according to the marked position information; and performing image labeling processing on the unfinished routing inspection route to generate an image of the unfinished routing inspection route.

In some alternative embodiments, after completing a one-day inspection job, or after a preset time (set according to practical situations), the heat-supply network management system performs statistical processing according to inspection data sent by the heat-supply network inspection monitor terminal received in one day, so as to obtain a heat-supply network inspection monitor result, where the heat-supply network inspection monitor result is that there is an unfinished inspection route, and the result indicates that the heat-supply network inspection personnel has completed the target inspection route, but there is a route with unfinished inspection job in the completed target inspection route. The method for generating the image of the unfinished routing inspection route by the heat management system comprises the following steps: the method comprises the steps of firstly determining a heat supply pipeline corresponding to position information according to position information sent by a heat supply network routing inspection monitoring terminal, then determining pipeline type information according to the heat supply pipeline corresponding to the position information, determining preset routing inspection time information according to the pipeline type information, comparing the routing inspection time information corresponding to each position information with the preset routing inspection time information, marking the position information corresponding to the routing inspection time information smaller than the preset routing inspection time information, determining an incomplete routing inspection route in a target routing inspection route according to the marked position information, performing image marking processing on the incomplete routing inspection route, generating an image of the incomplete routing inspection route, and displaying the image of the incomplete routing inspection route different from the image of the target routing inspection route on a heat supply network map interface. For example: the heat supply pipeline comprises a plurality of different pipeline type information, such as a straight pipeline, a bent pipeline, an underground pipeline and the like, the required inspection content of different pipeline types is different, then the time is different, but the inspection time of the normal heat supply network pipeline of the same pipeline type is basically consistent, then preset inspection time information can be set to preliminarily judge whether the specific work of the inspection personnel is finished or not, so that related information such as the display of the percentage data of the incomplete inspection route to the target inspection route, the inspection time information of the incomplete inspection route, the reason information of the incomplete inspection and the like can be displayed on a heat supply network map interface.

It should be noted that, a hyperlink icon for inquiring the incomplete routing inspection is set on the heat supply network map interface of the heat supply network management system, so that the third operation instruction may be to move the cursor to the hyperlink icon of the incomplete routing inspection, and then perform a clicking operation on the hyperlink icon of the incomplete routing inspection; or, the target inspection route is marked with an unfinished inspection route on a heat network map interface of the heat network management system, and the third operation instruction may be to move a cursor to the unfinished inspection route and perform a clicking operation on the unfinished inspection route.

Referring to fig. 9, fig. 9 is a flowchart of a heat supply network inspection supervision method according to an embodiment of the present invention, and the steps of the heat supply network inspection supervision method according to the embodiment of the present invention may further include, but are not limited to, step S910 and step S920.

Step S910, receiving a fourth operation instruction;

step S920, sending inspection requirement information to the heat supply network inspection supervision terminal of the heat supply network inspection personnel according to the fourth operation instruction, wherein the inspection requirement information comprises inspection position information of the heat supply pipeline with the problem and inspection step information of the heat supply pipeline with the problem.

In some alternative embodiments, some sensors are also arranged on some key pipeline nodes for detecting the part of heating pipelines or the heating pipelines corresponding to the heat pipe laying type information in real time, real-time detection information is sent to a heat supply network management system, when the data detected by the sensors exceeds a threshold value, the heat supply network management system generates relevant warning information on a heat supply network map interface, after the heat supply network map interface sees the relevant warning information, the heat supply network management system operates a fourth operation instruction on the heat supply network map interface, after receiving the fourth operation instruction, the heat supply network management system sends inspection requirement information to a heat supply network inspection supervision terminal of a heat supply network inspection personnel, the inspection requirement information comprises inspection position information representing the heat supply pipeline with problems and inspection step information representing the heat supply pipeline with problems, the priority of the inspection requirement information is higher than that of a conventional target inspection route, after the heat supply network inspection personnel receives the information, the heat supply network management system needs to immediately check the heat supply pipeline with problems according to the inspection requirement information, and the inspection position information of the heat supply pipeline with problems is really confirmed according to the inspection result of the heat supply network inspection terminal of the heat supply network.

It should be noted that, a hyperlink icon for setting the patrol request information is set on the heat supply network map interface of the heat supply network management system, so that the fourth operation instruction may be to move the cursor to the hyperlink icon for setting the patrol request information, then to click the patrol request information, pop up the setting interface for setting the patrol request information, then to input the related patrol request information, and to select the sending object; or, a warning image is marked on a heating pipeline on a heat supply network map interface of the heat supply network management system, so that the fourth operation instruction can be to move a cursor to the warning image, click the warning image, pop up a setting interface for setting the patrol request information, input the related patrol request information, and select a sending object.

In addition, one embodiment of the present invention provides an electronic device including: memory, a processor, and a computer program stored on the memory and executable on the processor.

The processor and the memory may be connected by a bus or other means.

It should be noted that, the computer in this embodiment may be correspondingly configured to include the memory and the processor in the embodiment shown in fig. 1, and may form a part of the system architecture platform in the embodiment shown in fig. 1, where the two are the same inventive concept, so that the two have the same implementation principle and beneficial effects, which are not described in detail herein.

The non-transitory software program and instructions required to implement the uplink co-channel interference cancellation method of the above embodiments are stored in the memory, and when executed by the processor, the heat network patrol monitoring method of the above embodiments is performed, for example, the method steps S100 to S200 in fig. 2, the method steps S610 to S630 in fig. 6, the method steps S710 to S720 in fig. 7, the method steps S810 to S820 in fig. 8, and the method steps S910 to S920 in fig. 9 described above are performed.

Furthermore, an embodiment of the present invention provides a computer-readable storage medium storing computer-executable instructions for performing the above-described method for monitoring a heat network tour of an electronic device, for example, performing the above-described method steps S100 to S200 in fig. 2, the method steps S610 to S630 in fig. 6, the method steps S710 to S720 in fig. 7, the method steps S810 to S820 in fig. 8, and the method steps S910 to S920 in fig. 9.

Those of ordinary skill in the art will appreciate that all or some of the steps, systems, and methods disclosed above may be implemented as software, firmware, hardware, and suitable combinations thereof. Some or all of the physical components may be implemented as software executed by a processor, such as a central processing unit, digital signal processor, or microprocessor, or as hardware, or as an integrated circuit, such as an application specific integrated circuit. Such software may be distributed on computer readable media, which may include computer storage media (or non-transitory media) and communication media (or transitory media). The term computer storage media includes both volatile and nonvolatile, removable and non-removable media implemented in any method or technology for storage of information such as computer readable instructions, data structures, program modules or other data, as known to those skilled in the art. Computer storage media includes, but is not limited to, RAM, ROM, EEPROM, flash memory or other memory technology, CD-ROM, digital Versatile Disks (DVD) or other optical disk storage, magnetic cassettes, magnetic tape, magnetic disk storage or other magnetic storage devices, or any other medium which can be used to store the desired information and which can be accessed by a computer. Furthermore, as is well known to those of ordinary skill in the art, communication media typically include computer readable instructions, data structures, program modules, or other data in a modulated data signal, such as a carrier wave or other transport mechanism, and may include any information delivery media.

While the preferred embodiment of the present invention has been described in detail, the present invention is not limited to the above embodiments, and those skilled in the art can make various equivalent modifications or substitutions without departing from the spirit and scope of the present invention, and these equivalent modifications or substitutions are included in the scope of the present invention as defined in the appended claims.

Claims (10)

1. The heat supply network inspection supervision method is characterized by being applied to a heat supply network management system, and comprises the following steps:

receiving a first operation instruction, wherein the first operation instruction is used for inquiring the inspection condition of a heat supply network inspection personnel on the heat supply network;

opening a heat supply network map interface in the heat supply network management system according to the first operation instruction, wherein the heat supply network map interface is used for displaying the completed inspection route, the target inspection route and the pipeline laying information of a heat supply pipeline of the heat supply network inspection personnel and the heat supply network inspection supervision result;

the method for generating the heat supply network map interface comprises the following steps:

acquiring patrol data sent by a heat supply network patrol monitoring terminal corresponding to the heat supply network patrol personnel;

generating a first inspection route according to the inspection data, wherein the first inspection route is a route which the heat supply network inspection monitoring terminal passes in a first time;

Matching the first routing inspection route with the target routing inspection route to obtain a heat supply network routing inspection supervision result;

the target routing inspection route is a route which is set on a heat supply network map and is required to be inspected by an inspector corresponding to the heat supply network routing inspection supervision terminal in target time, and the heat supply network map is a map marked with pipeline laying information of a heat supply pipeline.

2. The method according to claim 1, wherein the inspection information includes location information, the pipe laying information includes heat pipe laying type information, the matching the first inspection route with a target inspection route to obtain an inspection result of the heat supply network, and the method includes:

determining a patrol sub-route of the heat supply pipeline corresponding to the heat pipe laying type information according to the heat pipe laying type information;

connecting according to a plurality of patrol sub-routes to generate the target patrol route;

and matching the position information of the first routing inspection route with the target routing inspection route to obtain a heat supply network routing inspection supervision result.

3. The method for monitoring and inspection of a heat supply network according to claim 2, wherein,

when the heat pipe laying type information is a first laying type, the inspection sub-route corresponding to the first laying type is a street route parallel to the heat supply pipeline corresponding to the first laying type, and the first laying type represents a laying mode that the heat supply pipeline is arranged beside a street and parallel to the street;

Or alternatively, the process may be performed,

when the heat pipe laying type information is a second laying type, the inspection sub-route corresponding to the second laying type is a nearest street route for connecting two ends of the heat supply pipeline corresponding to the second laying type, and the second laying type represents a laying mode of burying the heat supply pipeline under the ground;

or alternatively, the process may be performed,

and under the condition that the heat pipe laying type information is a third laying type, the inspection sub-route corresponding to the third laying type is a street route which is parallel to the connecting line of the two ends of the heat supply pipeline and is closest to the connecting line of the two ends of the heat supply pipeline corresponding to the third laying type, and the third laying type represents a laying mode of crossing the heat supply pipeline across a road.

4. The method for monitoring and inspection of a heat supply network according to claim 1, wherein,

the heat supply network map interface further comprises an unrequired route in the target patrol route, and the image of the unrequired route is different from the image of the target patrol route;

the method for generating the image of the non-patrol route comprises the following steps:

under the condition that the result of the heat supply network inspection supervision is that part of routes in the first inspection route are not matched with the target inspection route, determining the route which is not matched with the first inspection route in the target inspection route as an unrequired route;

And carrying out image labeling processing on the non-patrol route so as to generate an image of the non-patrol route.

5. The method of heat network patrol supervision according to claim 4, further comprising:

receiving a second operation instruction for the non-patrol route;

and displaying the percentage data of the non-patrol route to the target patrol route, the non-patrol reason information of the non-patrol route and the suggestion information representing whether the target patrol route needs to be changed according to the second operation instruction.

6. The heat supply network inspection and supervision method according to claim 2, wherein the heat supply pipeline comprises pipeline type information, the inspection information comprises inspection time information, and the inspection time information characterizes the time of the heat supply network inspection and supervision terminal in a position corresponding to the pipeline type information;

the heat supply network map interface further includes an unfinished patrol route among the target patrol routes, an image of the unfinished patrol route being different from an image of the target patrol route:

the method for generating the image of the unfinished routing inspection route comprises the following steps:

determining a heat supply pipeline corresponding to the position information according to the position information sent by the heat supply network inspection monitoring terminal;

Determining pipeline type information according to the heating pipeline corresponding to the position information;

determining preset inspection time information according to the pipeline type information;

marking position information corresponding to the patrol time information smaller than the preset patrol time information, so as to determine an unfinished patrol route in the target patrol route according to the marked position information;

and carrying out image labeling processing on the unfinished routing inspection route so as to generate an image of the unfinished routing inspection route.

7. The method of heat network patrol supervision according to claim 6, further comprising:

receiving a third operation instruction for the incomplete patrol route;

and displaying the percentage data of the incomplete inspection route in the target inspection route, the inspection time information of the incomplete inspection route and the reason information of the incomplete inspection according to the third operation instruction.

8. The method of heat network inspection supervision according to claim 1, further comprising:

receiving a fourth operation instruction;

and sending inspection requirement information to a heat supply network inspection supervision terminal of the heat supply network inspection personnel according to the fourth operation instruction, wherein the inspection requirement information comprises inspection position information of the heat supply pipeline with the problems and inspection step information of the heat supply pipeline with the problems.

9. An electronic device, comprising: a memory, a processor and a computer program stored on the memory and executable on the processor, the processor implementing the heat network patrol supervision method according to any one of claims 1 to 8 when the computer program is executed.

10. A computer storage medium having stored thereon computer executable instructions for performing the heat network inspection supervision method according to any one of claims 1 to 8.