CN113916190A - Online monitoring and early warning method and system for gradient of tower - Google Patents
Online monitoring and early warning method and system for gradient of tower Download PDFInfo
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Abstract
The application relates to a tower inclination online monitoring and early warning method and a system, wherein the tower inclination online monitoring and early warning method comprises the steps of simultaneously acquiring soil humidity data of foundations below different towers; based on different towers, inputting corresponding humidity data into a humidity comparison model with a preset humidity threshold value to generate a comparison result; based on the comparison result, when the soil humidity data of the foundation below the tower is larger than the humidity threshold value data, marking the tower as the tower to be maintained; based on the tower to be maintained, the positioning information of the tower to be maintained is obtained, a prompt signal and the positioning information are sent to a maintenance user end closest to the tower, and the maintenance client end is bound with tower maintenance personnel. This application has the effect that the realization is to the monitoring in advance of shaft tower slope phenomenon to reduce the monitoring risk of shaft tower slope monitoring.
Description
Technical Field
The application relates to the technical field of power transmission lines, in particular to a tower gradient online monitoring and early warning method and system.
Background
The tower inclination refers to the phenomenon that the center of the tower deviates from the vertical position due to uneven foundation, and the on-line real-time monitoring is generally carried out on the electric power tower by adopting an MEMS sensor technology and a wireless communication technology at present;
when the inclination angle of the tower exceeds a set threshold value, the system can send alarm information to a monitoring center in time through a GSM/CDMA/GPRS/4G network so as to remind operation and maintenance personnel to reinforce the tower and the foundation;
however, once the tower is inclined, the tower is likely to collapse at any time even if the inclination degree does not exceed the threshold value, especially in a soft foundation; therefore, by monitoring the inclination of the tower to remind the operation and maintenance personnel, certain monitoring risks still exist, and improvement is needed.
Disclosure of Invention
In order to realize the pre-monitoring of the tower inclination phenomenon and reduce the monitoring risk of the tower inclination monitoring, the application provides a tower inclination on-line monitoring and early warning method and system.
The above object of the present invention is achieved by the following technical solutions:
a tower inclination on-line monitoring and early warning method comprises the following steps:
simultaneously acquiring soil humidity data of foundations below different towers;
based on different towers, inputting corresponding humidity data into a humidity comparison model with a preset humidity threshold value to generate a comparison result;
based on the comparison result, when the soil humidity data of the foundation below the tower is larger than the humidity threshold value data, marking the tower as the tower to be maintained;
based on the tower to be maintained, the positioning information of the tower to be maintained is obtained, a prompt signal and the positioning information are sent to a maintenance user end closest to the tower, and the maintenance client end is bound with tower maintenance personnel.
By adopting the technical scheme, the transmission cables are fixedly installed on the remote transmission line through the towers, when the soil body is soft, the towers are very easy to incline and even collapse, the soil humidity of the foundation below each tower is obtained, and the soil humidity is compared with the humidity threshold value, so that the difficulty degree of the inclination of the towers caused by the soil humidity is judged, the inclination of the towers is pre-monitored, and the monitoring risk of the inclination monitoring of the towers is reduced;
when the soil humidity data is larger than the humidity threshold value data, a prompt signal is sent to a worker who maintains the tower pole closest to the tower pole to be maintained, the position of the tower pole to be maintained is sent, then the worker can go to the tower pole to be maintained in time to reinforce the soil body or reinforce the tower pole, and the tower pole is not prone to inclination.
The present application may be further configured in a preferred example to: the method comprises the following steps of acquiring positioning information of a tower to be maintained based on the tower to be maintained, and sending a prompt signal and the positioning information to a maintenance user end closest to the tower, and further comprises the following steps:
and if the assistance request information sent by the maintenance user terminal is received, sending dispatching request information to a dispatching user terminal in charge of dispatching the maintenance personnel.
By adopting the technical scheme, when the maintenance user side lacks manpower or physical resources for maintaining the tower, the scheduling request message can be sent to the scheduling user side, and scheduling personnel can perform scheduling according to actual manpower and material resource conditions of other maintenance user sides so as to improve the maintenance efficiency of the tower to be maintained.
The present application may be further configured in a preferred example to: if the assistance request information sent by the maintenance user terminal is received, sending dispatching request information to a dispatching user terminal responsible for dispatching maintenance personnel, wherein the dispatching request information comprises the following steps:
when acquiring the assistance request information sent by a maintenance user side, acquiring the name data of the maintenance user side and the positioning information of the tower to be maintained, generating an edit frame and sending the edit frame to the maintenance user side;
when the editing content in the editing frame is obtained, binding the editing content with the name data and the positioning information of the tower to be maintained and generating dispatching information;
and sending the dispensing information to a dispensing user side.
By adopting the technical scheme, when the assistance request information is acquired, the name of the maintenance user side sending the request and the positioning of the tower to be maintained are automatically acquired, the generation of the assistance request information is facilitated, the position of the editing request item is provided for the requesting personnel in an editing frame mode, the description of the content of the request item is more subjective and clear, when the editing content is acquired, the editing request item is bound with the name data and the positioning information and is sent to the dispatching user side, and the dispatching information is generated more conveniently.
The present application may be further configured in a preferred example to: based on the tower to be maintained, the positioning information of the tower to be maintained is acquired, a prompt signal and the positioning information are sent to a maintenance user end which is closest to the tower, and after the step of binding tower maintenance personnel by the maintenance client end, the method further comprises the following steps:
based on the comparison result, if the soil humidity data of a plurality of towers are larger than the humidity threshold value at the same time, acquiring a humidity difference value between each soil humidity and the humidity threshold value;
creating a priority list based on the humidity difference values, and arranging the humidity difference values from large to small;
and binding the positioning information corresponding to each humidity difference value in a priority list, and sending the priority list to a dispensing user side.
By adopting the technical scheme, when the transmission line is locally rainy, soil bodies of a plurality of towers are easy to be soft, when a plurality of soil humidity data are larger than a humidity threshold value, a production humidity difference value is calculated, corresponding positioning information is bound with the humidity difference value and then is sent to the dispensing user side, according to the priority list, a worker at the dispensing user side can preferentially dispense and maintain the towers at the positions where the soil humidity is larger according to the humidity difference value, and the pre-monitoring effect of the towers is better.
The present application may be further configured in a preferred example to: binding the positioning information corresponding to each humidity difference value in a priority list, and after the step of sending the priority list to a dispensing user side, further comprising the steps of:
if receiving an active dispatching request sent by a dispatching user end, sending a dispatching message to a maintenance user end to be dispatched;
and synchronizing the dispatching message to a maintenance user terminal closest to the tower to be maintained based on the active dispatching request.
By adopting the technical scheme, the dispatching user side of the priority list is obtained, the maintenance user side to be dispatched and the maintenance user side closest to the tower to be maintained can be timely informed by actively sending the dispatching request, namely, dispatching information is received by both the object to be dispatched and the target user side of the dispatching, and then the foundation of the tower to be maintained is conveniently reinforced and maintained.
The present application may be further configured in a preferred example to: if receiving the active dispatching request sent by the dispatching user terminal, sending dispatching information to the maintenance user terminal to be dispatched, comprising the following steps:
when an active dispatching request sent by a dispatching user side is acquired, a dispatching editing model is generated and sent to the dispatching user side, and the dispatching editing model comprises an editing frame of an object to be dispatched, a destination maintenance user side of dispatching, a positioning information editing frame of a tower to be maintained and a dispatching item editing frame;
and when the name data of the maintenance user side to be scheduled, the positioning information of the tower to be maintained and scheduling item data are acquired, generating scheduling information and sending the scheduling information to the maintenance user side to be scheduled.
By adopting the technical scheme, when the active dispatching request is obtained, the fixed dispatching editing model is generated and sent to the dispatching user side, the efficiency of dispatching work is improved through standardized operation, the names of the maintenance user sides to be dispatched, the positioning of the towers to be repaired and the dispatching items are edited, the maintenance user sides to be dispatched can conveniently know the dispatching matters, and the dispatching work of the dispatching user sides is more convenient.
The present application may be further configured in a preferred example to: when the name data of a maintenance user side to be scheduled, the positioning information of a tower to be maintained and scheduling item data are acquired, generating scheduling information and sending the scheduling information to the maintenance user side to be scheduled, wherein the method comprises the following steps:
when the name data of a maintenance user end and a destination maintenance user end to be scheduled, the positioning information of a tower to be maintained and scheduling item data are acquired, the contact way of a main responsible person initiating the active scheduling request is acquired;
and binding the contact way of the main responsible person with the dispatching message and sending the binding to a maintenance user side to be dispatched.
By adopting the technical scheme, the contact mode of the responsible person who actively regulates the agent request is sent to the maintenance user side to be regulated, if the maintenance user side to be regulated has the reason that the agent can not be received, the responsible person who regulates the agent can be directly contacted, and the decision of the responsible person who regulates the agent is facilitated.
The second objective of the present invention is achieved by the following technical solutions:
a tower gradient on-line monitoring and early warning system comprises:
the humidity acquisition module is used for simultaneously acquiring soil humidity data of foundations below different towers;
the humidity comparison module is used for inputting corresponding humidity data into a humidity comparison model with a preset humidity threshold value based on different towers to generate a comparison result;
the comparison result module is used for marking the tower to be maintained when the soil humidity data of the foundation below the tower is larger than the humidity threshold value data based on the comparison result;
the prompt module is used for acquiring positioning information of the tower to be maintained based on the tower to be maintained, sending a prompt signal and the positioning information to a maintenance user side closest to the tower, and binding tower maintenance personnel at a maintenance client side.
By adopting the technical scheme, the transmission cables are fixedly installed on the remote transmission line through the towers, when the soil body is soft, the towers are very easy to incline and even collapse, the soil humidity of the foundation below each tower is obtained, and the soil humidity is compared with the humidity threshold value, so that the difficulty degree of the inclination of the towers caused by the soil humidity is judged, the inclination of the towers is pre-monitored, and the monitoring risk of the inclination monitoring of the towers is reduced;
when the soil humidity data is larger than the humidity threshold value data, a prompt signal is sent to a worker who maintains the tower pole closest to the tower pole to be maintained, the position of the tower pole to be maintained is sent, then the worker can go to the tower pole to be maintained in time to reinforce the soil body or reinforce the tower pole, and the tower pole is not prone to inclination.
In summary, the present application includes at least one of the following beneficial technical effects:
1. the soil humidity of the foundation below each tower is obtained, and the soil humidity is compared with a humidity threshold value, so that the difficulty of tower inclination caused by the soil humidity is judged, the tower inclination is pre-monitored, and the monitoring risk of tower inclination monitoring is reduced;
2. when the maintenance user side lacks manpower or physical resources for maintaining the tower, a dispatching request message can be sent to the dispatching user side, and dispatching personnel can carry out dispatching according to the actual manpower and material resource conditions of other maintenance user sides so as to improve the maintenance efficiency of the tower to be maintained;
3. the position of the editing request item is provided for the requesting personnel in an editing frame mode, so that the description of the content of the request item is more subjective and clear, and when the editing content is obtained, the editing content is bound with the name data and the positioning information and is sent to the dispatching user side, and the dispatching message is more convenient to generate;
4. and calculating a production humidity difference value, binding the corresponding positioning information of the humidity difference value, and then sending the humidity difference value to a dispensing user side, wherein according to the priority list, a worker at the dispensing user side can preferentially dispense and maintain a tower at a position with higher soil humidity according to the size of the humidity difference value, and the pre-monitoring effect of the tower is better.
Drawings
Fig. 1 is a flowchart of an embodiment of an online tower inclination monitoring and early warning method according to the present application;
fig. 2 is a flowchart illustrating an implementation of step S41 in an embodiment of the tower inclination online monitoring and warning method according to the present application;
fig. 3 is another implementation flowchart after step S40 in an embodiment of the tower inclination online monitoring and early warning method according to the present application;
fig. 4 is a flowchart of an implementation after step S44 in an embodiment of the tower inclination online monitoring and warning method according to the present application;
fig. 5 is a flowchart illustrating an implementation of step S45 in an embodiment of the tower inclination online monitoring and warning method according to the present application;
fig. 6 is a schematic block diagram of an online tower inclination monitoring and early warning system according to the present application.
Detailed Description
The present application is described in further detail below with reference to figures 1-6.
In an embodiment, as shown in the figure, the application discloses a tower inclination online monitoring and early warning method, which specifically comprises the following steps:
s10: simultaneously acquiring soil humidity data of foundations below different towers;
in this embodiment, transmission cable fixed mounting realizes long-range transmission before a plurality of shaft towers, therefore the foundation of shaft tower below is different, consequently obtains the soil moisture of shaft tower fixed department, can judge the stability of shaft tower.
Specifically, a soil humidity sensor is buried in the soil for monitoring, and soil humidity data below different towers, namely the humidity value of the soil, is obtained.
S20: based on different towers, inputting corresponding humidity data into a humidity comparison model with a preset humidity threshold value to generate a comparison result;
in this embodiment, the humidity threshold refers to threshold data obtained through continuous experiments, and the tower is prone to tilt when the soil humidity is greater than the humidity threshold;
and the comparison result is that the soil humidity data is greater than the humidity threshold value and the soil humidity data is less than the humidity threshold value.
Specifically, soil humidity data of different towers are input into a humidity comparison model and compared with a humidity threshold value in the humidity comparison model; and generating two comparison results that the soil humidity data is greater than the humidity threshold value and the soil humidity data is less than the humidity threshold value.
S30: based on the comparison result, when the soil humidity data of the foundation below the tower is larger than the humidity threshold value data, marking the tower as the tower to be maintained;
in this embodiment, the tower to be maintained refers to a tower under which the soil humidity of the foundation exceeds the standard and the inclination phenomenon easily occurs.
Specifically, if the soil humidity data of the foundation below the tower is larger than the humidity threshold data, the tower is marked as a tower to be maintained, and if the soil humidity data of the foundation below the tower is smaller than the humidity threshold data, the tower is not marked.
S40: based on the tower to be maintained, the positioning information of the tower to be maintained is obtained, a prompt signal and the positioning information are sent to a maintenance user end closest to the tower, and the maintenance client end is bound with tower maintenance personnel.
In this embodiment, the positioning information refers to a specific position of the tower to be maintained, which is determined by a GPS positioning technology;
the maintenance user side is a PC side of maintenance personnel in a maintenance office; and the maintenance user terminal closest to the tower to be maintained is used as the center to acquire all the maintenance user terminals in a certain range, and the maintenance user terminal closest to the actual distance is screened out.
The prompt information is information displayed on the PC side of the maintenance staff.
Specifically, the concrete positioning of the tower to be maintained is obtained, all maintenance user ends in a certain range are obtained by taking the tower to be maintained as a center, the maintenance user end closest to the tower to be maintained is screened out, prompt information is sent to the maintenance user end closest to the tower to be maintained, and the prompt information is displayed at a PC (personal computer) end, so that a maintenance worker can perform pre-monitoring on the inclination of the tower through the soil humidity below the tower, and the monitoring risk of monitoring the inclination of the tower is reduced;
further, after receiving the prompt message, the worker can go to the tower to be maintained to reinforce the soil body or reinforce the tower in time, and the tower is not prone to inclination.
In one embodiment, after step S40, the method further includes the steps of:
s41: and if the assistance request information sent by the maintenance user terminal is received, sending dispatching request information to a dispatching user terminal in charge of dispatching the maintenance personnel.
In this embodiment, the assistance request information refers to information requesting other maintenance clients to provide support for personnel and material resources;
the dispatching user side is a responsible person office point which is responsible for managing all the maintenance user sides within a certain range, and the dispatching request information is displayed on the PC side of the responsible person office point.
Specifically, the maintenance user side aims at the tower to be maintained, if maintenance personnel or resources are lacked, assistance request information can be sent, the background sends scheduling request information to the responsible user side after receiving the assistance request information, and the responsible user performs scheduling according to actual conditions of the personnel and resources of other maintenance user sides.
In one embodiment, referring to fig. 2, step S41 includes the steps of:
s411: when acquiring the assistance request information sent by a maintenance user side, acquiring the name data of the maintenance user side and the positioning information of the tower to be maintained, generating an edit frame and sending the edit frame to the maintenance user side;
in this embodiment, the name data is the name of each service client, such as the area name + number + service client.
The edit box is used for a maintenance person at the maintenance user end to edit specific matters of the assistance request, such as assistance of the person or assistance of a resource tool.
Specifically, when an assistance request sent by a maintenance user side is obtained, the name of the maintenance user side and the position of the tower to be maintained are obtained, the specific position of the assistance request operation is determined, and an editing frame is generated for a maintenance worker to edit specific assistance items.
S412: when the editing content in the editing frame is obtained, binding the editing content with the name data and the positioning information of the tower to be maintained and generating dispatching information;
s413: and sending the dispensing information to a dispensing user side.
In this embodiment, the edited content is the specific maintenance assisting item that is filled in by the maintenance client that sends the assistance request, such as assistance required by personnel and equipment.
The scheduling information includes name data of the maintenance user terminal sending the assistance request, positioning information of the tower to be maintained, and specific items for assisting maintenance.
Specifically, the scheduling information is generated when the background acquires the name data of the maintenance user side, the positioning information of the tower to be maintained and specific items for assisting maintenance.
Further, if the specific assistance item is not obtained, it is determined that the assistance request information is not provided.
Further, after receiving the dispatching request information, the dispatching user side determines that the dispatching object goes to assist according to the positioning information, the name data and the editing content in the editing frame.
In an embodiment, referring to fig. 3, after step S40, the method further includes the steps of:
s42: based on the comparison result, if the soil humidity data of a plurality of towers are larger than the humidity threshold value at the same time, acquiring a humidity difference value between each soil humidity and the humidity threshold value;
in this embodiment, the humidity difference is obtained by subtracting a humidity threshold from soil humidity data, that is, subtracting the humidity threshold from an actual humidity value of soil.
Specifically, when two or more soil humidity data are larger than the humidity threshold, the soil humidity data are subtracted from the humidity threshold respectively to obtain two or more humidity difference values.
S43: creating a priority list based on the humidity difference values, and arranging the humidity difference values from large to small;
specifically, based on the obtained two or more humidity difference values, a priority list is created, and the humidity difference values are arranged in the priority list in order from large to small.
S44: and binding the positioning information corresponding to each humidity difference value in a priority list, and sending the priority list to a dispensing user side.
Specifically, corresponding soil humidity data is obtained based on the humidity difference value, the marked tower to be maintained is obtained based on the soil humidity data, specific positioning information is obtained based on the tower to be maintained, and the positioning information and the humidity difference value are bound and displayed in the priority list.
Furthermore, the priority list is sent to the dispensing user side, the dispensing user side can obtain the positioning of each tower to be maintained and the comparison of the soil humidity degree according to the priority list, and dispensing can be carried out according to actual conditions, so that the foundation of the tower to be maintained with high soil humidity is preferentially reinforced.
In an embodiment, referring to fig. 4, after step S44, the method further includes the steps of:
s45: if receiving an active dispatching request sent by a dispatching user end, sending a dispatching message to a maintenance user end to be dispatched;
s46: and synchronizing the dispatching message to a maintenance user terminal closest to the tower to be maintained based on the active dispatching request.
In this embodiment, the active provisioning request refers to a request sent by a provisioning client for provisioning and maintaining the client;
the dispatching message comprises the destination maintenance user terminal of the specific dispatching, the positioning information of the tower to be maintained and specific assistance matters.
Specifically, if an active dispatching request sent by a dispatching user terminal is received, a dispatching message including the positioning information and specific assistance items of a destination maintenance user terminal and a tower to be maintained of a specific dispatching is generated.
Furthermore, the dispensing message is sent to a maintenance user side to be dispensed, and the dispensing message is synchronized to the maintenance user side closest to the tower to be maintained, namely the dispensing message is synchronized to the assisting object, so that the function of the dispensing user side for actively dispensing maintenance personnel or resources is realized, the tower to be maintained with high soil humidity is reinforced, the dispensing object and the dispensing target user side both receive the dispensing information, and the foundation of the tower to be maintained is conveniently reinforced and maintained.
In one embodiment, referring to fig. 5, step S45 includes the steps of:
s451: when an active dispatching request sent by a dispatching user side is acquired, a dispatching editing model is generated and sent to the dispatching user side, and the dispatching editing model comprises an editing frame of an object to be dispatched, a destination maintenance user side of dispatching, a positioning information editing frame of a tower to be maintained and a dispatching item editing frame;
s452: and when the name data of the maintenance user side to be scheduled, the positioning information of the tower to be maintained and scheduling item data are acquired, generating scheduling information and sending the scheduling information to the maintenance user side to be scheduled.
In this embodiment, the editing model is a model in which the type of the data to be acquired is preset for the dispatcher client to edit the data.
Specifically, when an active dispatching request sent by a dispatching user side is obtained, an editing model is generated and sent to the dispatching user side, and after the dispatching user side finishes editing of name data of an object to be dispatched and a destination maintenance user side, editing of positioning information of a tower to be maintained and editing of dispatching item data, dispatching information is generated and sent to the maintenance user side.
In one embodiment, step S46 includes the steps of:
s461: and when the name data of the maintenance user end and the destination maintenance user end to be scheduled, the positioning information of the tower to be maintained and scheduling item data are acquired, acquiring the contact way of the main responsible person initiating the active scheduling request.
S462: and binding the contact way of the main responsible person with the dispatching message and sending the binding to a maintenance user side to be dispatched.
In this embodiment, the main responsible person is the responsible person who plays the right or left of the decision and initiates the active dispatching request;
specifically, when the scheduling information is generated by acquiring the name data of the maintenance user side to be scheduled and the destination maintenance user side, the positioning information of the tower to be maintained and the scheduling item data, the contact information of the main responsible person of the active scheduling request is acquired, and the contact information and the scheduling information are bound and sent to the maintenance user side to be scheduled.
Furthermore, the contact mode of the responsible person who actively dispatches the dispatching request is sent to the maintenance user side of the dispatching user side, if the reason that the dispatching user side of the dispatching user side cannot receive the dispatching exists, the responsible person who dispatches can be directly contacted, and the decision of the dispatching responsible person is facilitated.
It should be understood that, the sequence numbers of the steps in the foregoing embodiments do not imply an execution sequence, and the execution sequence of each process should be determined by its function and inherent logic, and should not constitute any limitation to the implementation process of the embodiments of the present application.
In an embodiment, an on-line tower inclination monitoring and early warning system is provided, and the on-line tower inclination monitoring and early warning system and the embodiment are provided. An on-line monitoring and early warning method for the gradient of a tower corresponds to one another. As shown in fig. 6, the tower inclination on-line monitoring and early warning system includes:
the humidity acquisition module is used for simultaneously acquiring soil humidity data of foundations below different towers;
the humidity comparison module is used for inputting corresponding humidity data into a humidity comparison model with a preset humidity threshold value based on different towers to generate a comparison result;
the comparison result module is used for marking the tower to be maintained when the soil humidity data of the foundation below the tower is larger than the humidity threshold value data based on the comparison result;
the prompt module is used for acquiring positioning information of the tower to be maintained based on the tower to be maintained, sending a prompt signal and the positioning information to a maintenance user side closest to the tower, and binding tower maintenance personnel at a maintenance client side.
Optionally, the tower inclination on-line monitoring and early warning system further includes:
and the assistance request module is used for sending dispatching request information to a dispatching user end in charge of dispatching the maintenance personnel if the assistance request information sent by the maintenance user end is received.
Optionally, the assistance request module includes:
the assistance information acquisition module is used for generating an edit box and sending the edit box to the maintenance user side when acquiring the name data of the maintenance user side and the positioning information of the tower to be maintained when acquiring the assistance request information sent by the maintenance user side;
the scheduling information generating module is used for binding the editing content with the name data and the positioning information of the tower to be maintained and generating scheduling information when the editing content in the editing frame is acquired;
and the dispensing information sending module is used for sending the dispensing information to the dispensing user side.
Optionally, the tower inclination on-line monitoring and early warning system further includes:
the humidity difference module is used for acquiring the humidity difference between each soil humidity and the humidity threshold value if the soil humidity data of the towers are larger than the humidity threshold value simultaneously based on the comparison result;
the priority list module is used for creating a priority list based on the humidity difference value and arranging the humidity difference value from large to small;
and the list sending module is used for binding the positioning information corresponding to each humidity difference value in a priority list and sending the priority list to the dispensing user side.
Optionally, the tower inclination on-line monitoring and early warning system further includes:
the active dispatching module is used for sending dispatching information to a maintenance user side to be dispatched if receiving an active dispatching request sent by a dispatching user side;
and the dispatching message sending module is used for synchronizing the dispatching message to a maintenance user terminal closest to the tower to be maintained based on the active dispatching request.
Optionally, the active dispensing module includes:
the active dispatching obtaining module is used for generating a dispatching editing model and sending the dispatching editing model to a dispatching user side when an active dispatching request sent by a dispatching user side is obtained, wherein the dispatching editing model comprises an editing frame of an object to be dispatched, a destination maintenance user side of dispatching, a positioning information editing frame of a tower to be maintained and a dispatching item editing frame;
and the scheduling message generating module is used for generating scheduling messages and sending the scheduling messages to the maintenance user side to be scheduled when the name data of the maintenance user side to be scheduled, the positioning information of the tower to be maintained and scheduling item data are acquired.
Optionally, the scheduling message sending module includes:
the contact information acquisition module is used for acquiring the contact information of a main responsible person initiating the active dispatching request when acquiring the name data of a maintenance user end and a destination maintenance user end to be dispatched, the positioning information of a tower to be maintained and dispatching item data;
and the binding sending module is used for binding the contact way of the main responsible person with the dispatching message and sending the binding message to a maintenance user side to be dispatched.
For specific limitations of the tower inclination online monitoring and early warning system, reference may be made to the above limitations of the tower inclination online monitoring and early warning method, which are not described herein again. All modules in the tower inclination on-line monitoring and early warning system can be completely or partially realized through software, hardware and a combination thereof. The modules can be embedded in a hardware form or independent from a processor in the computer device, and can also be stored in a memory in the computer device in a software form, so that the processor can call and execute operations corresponding to the modules.
The above-mentioned embodiments are only used for illustrating the technical solutions of the present application, and not for limiting the same; although the present application has been described in detail with reference to the foregoing embodiments, it should be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not substantially depart from the spirit and scope of the embodiments of the present application and are intended to be included within the scope of the present application.
Claims (8)
1. A tower gradient on-line monitoring and early warning method is characterized by comprising the following steps: the method comprises the following steps:
simultaneously acquiring soil humidity data of foundations below different towers;
based on different towers, inputting corresponding humidity data into a humidity comparison model with a preset humidity threshold value to generate a comparison result;
based on the comparison result, when the soil humidity data of the foundation below the tower is larger than the humidity threshold value data, marking the tower as the tower to be maintained;
based on the tower to be maintained, the positioning information of the tower to be maintained is obtained, a prompt signal and the positioning information are sent to a maintenance user end closest to the tower, and the maintenance client end is bound with tower maintenance personnel.
2. The pole tower inclination on-line monitoring and early warning method according to claim 1, characterized in that: the method comprises the following steps of acquiring positioning information of a tower to be maintained based on the tower to be maintained, and sending a prompt signal and the positioning information to a maintenance user end closest to the tower, and further comprises the following steps:
and if the assistance request information sent by the maintenance user terminal is received, sending dispatching request information to a dispatching user terminal in charge of dispatching the maintenance personnel.
3. The pole tower inclination on-line monitoring and early warning method according to claim 2, characterized in that: if the assistance request information sent by the maintenance user terminal is received, sending dispatching request information to a dispatching user terminal responsible for dispatching maintenance personnel, wherein the dispatching request information comprises the following steps:
when acquiring the assistance request information sent by a maintenance user side, acquiring the name data of the maintenance user side and the positioning information of the tower to be maintained, generating an edit frame and sending the edit frame to the maintenance user side;
when the editing content in the editing frame is obtained, binding the editing content with the name data and the positioning information of the tower to be maintained and generating dispatching information;
and sending the dispensing information to a dispensing user side.
4. The pole tower inclination on-line monitoring and early warning method according to claim 1, characterized in that: based on the tower to be maintained, the positioning information of the tower to be maintained is acquired, a prompt signal and the positioning information are sent to a maintenance user end which is closest to the tower, and after the step of binding tower maintenance personnel by the maintenance client end, the method further comprises the following steps:
based on the comparison result, if the soil humidity data of a plurality of towers are larger than the humidity threshold value at the same time, acquiring a humidity difference value between each soil humidity and the humidity threshold value;
creating a priority list based on the humidity difference values, and arranging the humidity difference values from large to small;
and binding the positioning information corresponding to each humidity difference value in a priority list, and sending the priority list to a dispensing user side.
5. The pole tower inclination on-line monitoring and early warning method according to claim 4, characterized in that: binding the positioning information corresponding to each humidity difference value in a priority list, and after the step of sending the priority list to a dispensing user side, further comprising the steps of:
if receiving an active dispatching request sent by a dispatching user end, sending a dispatching message to a maintenance user end to be dispatched;
and synchronizing the dispatching message to a maintenance user terminal closest to the tower to be maintained based on the active dispatching request.
6. The pole tower inclination on-line monitoring and early warning method according to claim 5, characterized in that: if receiving the active dispatching request sent by the dispatching user terminal, sending dispatching information to the maintenance user terminal to be dispatched, comprising the following steps:
when an active dispatching request sent by a dispatching user side is acquired, a dispatching editing model is generated and sent to the dispatching user side, and the dispatching editing model comprises an editing frame of an object to be dispatched, a destination maintenance user side of dispatching, a positioning information editing frame of a tower to be maintained and a dispatching item editing frame;
and when the name data of the maintenance user side to be scheduled, the positioning information of the tower to be maintained and scheduling item data are acquired, generating scheduling information and sending the scheduling information to the maintenance user side to be scheduled.
7. The pole tower inclination on-line monitoring and early warning method according to claim 5, characterized in that: when the name data of a maintenance user side to be scheduled, the positioning information of a tower to be maintained and scheduling item data are acquired, generating scheduling information and sending the scheduling information to the maintenance user side to be scheduled, wherein the method comprises the following steps:
when the name data of a maintenance user end and a destination maintenance user end to be scheduled, the positioning information of a tower to be maintained and scheduling item data are acquired, the contact way of a main responsible person initiating the active scheduling request is acquired;
and binding the contact way of the main responsible person with the dispatching message and sending the binding to a maintenance user side to be dispatched.
8. The utility model provides a shaft tower gradient on-line monitoring, early warning system which characterized in that: comprises that
The humidity acquisition module is used for simultaneously acquiring soil humidity data of foundations below different towers;
the humidity comparison module is used for inputting corresponding humidity data into a humidity comparison model with a preset humidity threshold value based on different towers to generate a comparison result;
the comparison result module is used for marking the tower to be maintained when the soil humidity data of the foundation below the tower is larger than the humidity threshold value data based on the comparison result;
the prompt module is used for acquiring positioning information of the tower to be maintained based on the tower to be maintained, sending a prompt signal and the positioning information to a maintenance user side closest to the tower, and binding tower maintenance personnel at a maintenance client side.
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Citations (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105119989A (en) * | 2015-08-19 | 2015-12-02 | 深圳市元征科技股份有限公司 | Assistance request sending method, assistance request receiving method, server, and vehicle-mounted terminal |
CN108335031A (en) * | 2018-01-30 | 2018-07-27 | 江苏信源达科技有限公司 | Command dispatching system |
CN108810162A (en) * | 2018-06-27 | 2018-11-13 | 四川君逸数码科技股份有限公司 | Urban Underground piping lane comprehensive management platform |
CN109931910A (en) * | 2019-04-04 | 2019-06-25 | 国家电网有限公司 | A kind of power transmission line shaft tower inclination measurement system and method |
CN211904214U (en) * | 2020-03-06 | 2020-11-10 | 天戈通信科技股份有限公司 | Communication tower on-line monitoring and scheduling system |
CN112650121A (en) * | 2020-12-22 | 2021-04-13 | 安徽康能电气有限公司 | Multi-dimensional intelligent monitoring method and device for tower |
CN213844320U (en) * | 2021-01-20 | 2021-07-30 | 河北城兴市政设计院股份有限公司 | Retaining wall monitoring and early warning device that collapses |
-
2021
- 2021-10-27 CN CN202111258497.3A patent/CN113916190A/en active Pending
Patent Citations (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105119989A (en) * | 2015-08-19 | 2015-12-02 | 深圳市元征科技股份有限公司 | Assistance request sending method, assistance request receiving method, server, and vehicle-mounted terminal |
CN108335031A (en) * | 2018-01-30 | 2018-07-27 | 江苏信源达科技有限公司 | Command dispatching system |
CN108810162A (en) * | 2018-06-27 | 2018-11-13 | 四川君逸数码科技股份有限公司 | Urban Underground piping lane comprehensive management platform |
CN109931910A (en) * | 2019-04-04 | 2019-06-25 | 国家电网有限公司 | A kind of power transmission line shaft tower inclination measurement system and method |
CN211904214U (en) * | 2020-03-06 | 2020-11-10 | 天戈通信科技股份有限公司 | Communication tower on-line monitoring and scheduling system |
CN112650121A (en) * | 2020-12-22 | 2021-04-13 | 安徽康能电气有限公司 | Multi-dimensional intelligent monitoring method and device for tower |
CN213844320U (en) * | 2021-01-20 | 2021-07-30 | 河北城兴市政设计院股份有限公司 | Retaining wall monitoring and early warning device that collapses |
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