CN106557987B - Mobile inspection method for photovoltaic power station - Google Patents

Abstract

The application discloses a mobile inspection method of a photovoltaic power station, which comprises the following steps: the method comprises the steps that the mobile intelligent terminal device sends a device information query request to a photovoltaic server, wherein the request carries identification information of the photovoltaic device to be checked currently; the photovoltaic server inquires corresponding equipment information according to the equipment information inquiry request and feeds the equipment information back to the mobile intelligent terminal equipment; the mobile intelligent terminal equipment collects fault information and reports the fault information to the photovoltaic server according to the received equipment information; and the photovoltaic server performs corresponding fault registration confirmation processing according to the reported fault information, generates a corresponding work ticket or operation ticket and sends the work ticket or operation ticket to the mobile intelligent terminal equipment. The invention can improve the efficiency of fault checking processing.

Description

Mobile inspection method for photovoltaic power station

Technical Field

The invention relates to an operation and maintenance technology of a photovoltaic power station, in particular to a mobile inspection method of the photovoltaic power station.

Background

At present, in the field of maintenance management of photovoltaic power stations, fault detection and treatment of power station equipment are mainly completed by means of inspection of maintainers. In the inspection process, maintenance personnel need to record the specific condition of the power station equipment fault, the specific condition is recorded into a maintenance system of the photovoltaic power station after inspection is finished, then the system confirms the fault, the specific fault solution is determined according to the currently set fault processing strategy, and finally the maintenance personnel maintain the fault equipment according to the determined scheme.

In the above-mentioned traditional scheme of patrolling and examining, when maintainer left the system maintenance center and patrolled and examined to each photovoltaic power plant of physical position discrete distribution, can't acquire the concrete information of the photovoltaic power plant of examining from the maintenance center of photovoltaic power plant again, like this, patrolling and examining personnel reach the photovoltaic power plant department that has the trouble back, because can't acquire the relevant equipment information of system, consequently also can not carry out corresponding fault confirmation, investigation, maintenance to it immediately, like this, will influence the treatment effeciency of trouble greatly.

Disclosure of Invention

In view of the above, the present invention is directed to a mobile inspection method for a photovoltaic power station, which can improve the efficiency of fault check processing.

In order to achieve the purpose, the technical scheme provided by the invention is as follows:

a mobile inspection method of a photovoltaic power station comprises the following steps:

the method comprises the steps that the mobile intelligent terminal device sends a device information query request to a photovoltaic server, wherein the request carries identification information of the photovoltaic device to be checked currently;

the photovoltaic server inquires corresponding equipment information according to the equipment information inquiry request and feeds the equipment information back to the mobile intelligent terminal equipment;

the mobile intelligent terminal equipment collects fault information and reports the fault information to the photovoltaic server according to the received equipment information;

and the photovoltaic server performs corresponding fault registration confirmation processing according to the reported fault information, generates a corresponding work ticket or operation ticket and sends the work ticket or operation ticket to the mobile intelligent terminal equipment.

In summary, the mobile inspection method provided by the invention obtains information required for fault inspection from the photovoltaic power station maintenance system by using the mobile intelligent terminal device, acquires the fault information of the photovoltaic power station device on site by using the mobile intelligent terminal device, uploads the fault information to the photovoltaic power station maintenance system in real time, triggers the photovoltaic server to perform corresponding fault registration confirmation processing, and issues a corresponding work ticket or operation ticket. Therefore, the method can prompt the polling personnel to complete the fault treatment of the equipment on the polling site, thereby greatly improving the fault checking treatment efficiency.

Drawings

Fig. 1 is a schematic flow chart according to a first embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

The core idea of the invention is as follows: the method comprises the steps that the mobile intelligent terminal equipment is used for obtaining information required by fault checking from a photovoltaic power station maintenance system, the mobile intelligent terminal equipment is used for collecting fault information of the photovoltaic power station equipment and uploading the fault information to the photovoltaic power station maintenance system in real time, and therefore the photovoltaic power station maintenance system can carry out fault confirmation according to the uploaded fault information and feed back a corresponding fault processing scheme to the mobile intelligent terminal equipment so that maintenance personnel can carry out fault processing in time according to the feedback. Therefore, the problem of low fault processing efficiency caused by the fact that the polling personnel cannot process the fault on site can be avoided.

Fig. 1 is a schematic flow chart of a first embodiment of the present invention, as shown in fig. 1, the first embodiment mainly includes:

step 101, the mobile intelligent terminal device sends a device information query request to a photovoltaic server, wherein the request carries identification information of the current photovoltaic device to be checked.

In this step, the mobile intelligent terminal device needs to request the server for the device information of the photovoltaic device, so as to collect the fault information based on the device information.

Preferably, the device information query request may be a device asset information query request, a device alarm query request or a device operation data query request.

And 102, the photovoltaic server inquires corresponding equipment information according to the equipment information inquiry request and feeds the equipment information back to the mobile intelligent terminal equipment.

The equipment information is information which is stored by the server and is related to the photovoltaic equipment to be checked, and comprises information such as alarm information, equipment manufacturer information and equipment running state.

Preferably, after receiving the device information, the mobile intelligent terminal device displays the information on the terminal device so that the inspection personnel can know the information.

And 103, the mobile intelligent terminal equipment collects fault information and reports the fault information to the photovoltaic server according to the received equipment information.

The method comprises the steps of utilizing the mobile intelligent terminal equipment to collect and report fault information, and therefore the photovoltaic server can timely acquire the fault information of the equipment, processing operation on faults can be timely triggered, and fault checking processing efficiency is greatly improved.

Specifically, the collected fault information includes: a picture of the field fault and fault type information. Wherein, the scene trouble photo can be directly taken a picture by mobile intelligent terminal equipment, and trouble type information can be selected or type by the personnel of patrolling and examining.

And step 104, the photovoltaic server performs corresponding fault registration confirmation processing according to the reported fault information, generates a corresponding work ticket or operation ticket and sends the work ticket or operation ticket to the mobile intelligent terminal equipment.

In this step, after receiving the fault information reported by the terminal, the photovoltaic server performs corresponding fault registration confirmation processing based on the fault information, including registering new faults which are not found before and confirming the faults which have been warned. The specific processing method and the generation method of the work ticket and the operation ticket in the above steps are known to those skilled in the art, and are not described herein again.

Preferably, the mobile intelligent terminal device may further report current location information to the server in real time, and the server notifies the mobile intelligent terminal device of the abnormal device deployed near the location according to the location information, so that the inspection staff can timely obtain the device information of the abnormal device near the current geographic location and perform corresponding verification, and specifically, the purpose of actively pushing the device information of the abnormal device by the server can be achieved by adopting the following method:

the mobile intelligent terminal device reports the current position information to the photovoltaic server in real time;

and the photovoltaic server judges whether abnormal photovoltaic equipment exists in the specified range around the mobile intelligent terminal equipment or not according to the position information, and if so, notifies the abnormal photovoltaic equipment to the mobile intelligent terminal equipment.

By adopting the method, the photovoltaic server can actively push the equipment information of the abnormal photovoltaic equipment near the mobile intelligent terminal equipment to the terminal equipment, so that the terminal equipment can check the equipment in time according to the equipment information. After receiving the device information, the mobile intelligent terminal device adopts the same processing method as the steps 103 and 104, namely, according to the received device information, the fault information is collected and reported to the photovoltaic server; and the photovoltaic server performs corresponding fault registration confirmation processing according to the reported fault information, generates a corresponding work ticket or operation ticket and sends the work ticket or operation ticket to the mobile intelligent terminal equipment.

Here, the specific size of the specified range may be set by those skilled in the art according to actual needs, for example, the specific size may be a device within a range of 20 meters nearest to the terminal, but is not limited thereto.

In summary, the above description is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (3)

1. A mobile inspection method of a photovoltaic power station is characterized by comprising the following steps:

the method comprises the steps that the mobile intelligent terminal device sends a device information query request to a photovoltaic server, wherein the request carries identification information of the photovoltaic device to be checked currently;

the photovoltaic server inquires corresponding equipment information according to the equipment information inquiry request and feeds the equipment information back to the mobile intelligent terminal equipment;

the mobile intelligent terminal equipment collects fault information and reports the fault information to the photovoltaic server according to the received equipment information;

the photovoltaic server carries out corresponding fault registration confirmation processing according to the reported fault information, generates a corresponding work ticket or an operation ticket and sends the work ticket or the operation ticket to the mobile intelligent terminal equipment;

the mobile intelligent terminal device reports the current position information to the photovoltaic server in real time; the photovoltaic server judges whether abnormal photovoltaic equipment exists in a specified range around the mobile intelligent terminal equipment according to the position information, if so, the abnormal photovoltaic equipment information is notified to the mobile intelligent terminal equipment, and the mobile intelligent terminal equipment acquires fault information and reports the fault information to the photovoltaic server according to the notified equipment information; and the photovoltaic server performs corresponding fault registration confirmation processing according to the reported fault information, generates a corresponding work ticket or operation ticket and sends the work ticket or operation ticket to the mobile intelligent terminal equipment.

2. The method of claim 1, wherein the device information query request comprises a device asset information query request, a device alarm query request, or a device operational data query request.

3. The method of claim 1, wherein the collected fault information comprises: a picture of the field fault and fault type information.

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