CN206236130U - Wind power plant O&M monitoring system - Google Patents
Wind power plant O&M monitoring system Download PDFInfo
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- CN206236130U CN206236130U CN201621362192.1U CN201621362192U CN206236130U CN 206236130 U CN206236130 U CN 206236130U CN 201621362192 U CN201621362192 U CN 201621362192U CN 206236130 U CN206236130 U CN 206236130U
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Abstract
The utility model provides a kind of wind power plant O&M monitoring system, it is characterised in that including:Server and handheld device, handheld device includes the first scanner, first wireless communication module and interactive terminal, wherein, the Awaiting Overhaul facility information indicated by the first label that first scanner will read is sent to the first wireless communication module, the Awaiting Overhaul facility information that first wireless communication module will be received is uploaded to server, and the overhaul of the equipments information fed back according to Awaiting Overhaul facility information from server the reception server, overhaul of the equipments information is sent to interactive terminal, interactive terminal display device service information, and the record of examination for the overhaul of the equipments information for receiving is sent to the first wireless communication module.According to the wind power plant O&M monitoring system, it is possible to achieve the paperless work at scene, it is ensured that the reliability that the promptness and equipment state of maintained equipment are followed the trail of.
Description
Technical field
The utility model all things considered is related to wind farm device operation maintenance field, more particularly, be related to a kind of wind-powered electricity generation
Field O&M monitoring system.
Background technology
Sea climate bad environments, Wind turbines are difficult in maintenance, and fault rate is high, the development of condition monitoring technology and improve have
Help improve the runnability of offshore wind farm unit, improve wind power plant economic benefit.At present, when preventative maintenance is carried out, lead to
It is often by way of hand inspection, for example, according to overhaul of the equipments inventory, the key component to equipment is checked.Equipment
Inspection result places one's entire reliance upon the integrality and consciousness of operation maintenance personnel maintenance, also, by workload and operation window
Influence, it is impossible to ensure that each item to be checked can be checked comprehensively in time.Therefore, it is existing to Wind turbines plant maintenance
Mode can not timely and accurately know the state of equipment key part.
Utility model content
Exemplary embodiment of the present utility model is to provide a kind of wind power plant O&M monitoring system, existing right to solve
The mode of Wind turbines plant maintenance cannot timely and accurately know the problem of equipment key part current state.
According to the utility model exemplary embodiment, there is provided a kind of wind power plant O&M monitoring system, it is characterised in that wind-powered electricity generation
Field O&M monitoring system includes:Server and handheld device, handheld device include the first scanner, the first wireless communication module and
Interactive terminal, wherein, it is wireless that the Awaiting Overhaul facility information indicated by the first label that the first scanner will read is sent to first
Communication module, the Awaiting Overhaul facility information that the first wireless communication module will be received is uploaded to server, and is received from server
The overhaul of the equipments information that server feeds back according to Awaiting Overhaul facility information, interactive terminal is sent to by overhaul of the equipments information, interaction
Terminal display device service information, and the record of examination for overhaul of the equipments information for receiving is sent to the first wireless telecommunications mould
Block.
Alternatively, the first wireless communication module uploads onto the server record of examination to be stored.
Alternatively, wind power plant O&M monitoring system also includes tool detection machine, wherein, tool detection machine includes:Second sweeps
Device, comparator and display terminal are retouched, wherein, the tool information indicated by the second label that the second scanner will read is sent to ratio
Compared with device, whether the instruction user produced by comparing tool information and predetermined tool information is carried armamentarium by comparator
The object information of service kit is sent to display terminal, and display terminal is presented object information.
Alternatively, tool detection machine also includes the second wireless communication module, wherein, comparator passes through the second radio communication mold
Block interacts to update predetermined tool information in real time with server.
Alternatively, the first wireless communication module and the second wireless communication module include WIFI communication module or mobile communication mould
Block.
Alternatively, the first scanner is radio-frequency card reader, and the first label is RF tag.
Alternatively, the first label is arranged in Awaiting Overhaul equipment.
Alternatively, the first label is Quick Response Code or bar code.
Alternatively, the second scanner is radio-frequency card reader, and the second label is RF tag.
Alternatively, the second label is arranged on overhaul of the equipments instrument.
Wind power plant O&M monitoring system according to the utility model exemplary embodiment, can not only realize scene without paper
Change operation, also ensure the promptness of maintained equipment and the reliability of asset of equipments state tracking.
Brief description of the drawings
By the description carried out with reference to the accompanying drawing for being exemplarily illustrated embodiment, exemplary embodiment of the present it is upper
State and be will become apparent with other purposes and feature, wherein:
Fig. 1 shows the structured flowchart of the wind power plant O&M monitoring system provided according to first embodiment of the present utility model;
Fig. 2 shows the structured flowchart of the wind power plant O&M monitoring system provided according to second embodiment of the present utility model.
Specific embodiment
The following description for providing referring to the drawings is of the present utility model to what is limited by claim and its equivalent to help
The comprehensive understanding of embodiment.Including various specific details to help understand, but these details are considered only as being exemplary.Cause
This, one of ordinary skill in the art will be recognized that in the case where scope and spirit of the present utility model are not departed from, can be to retouching
The embodiment for being set forth in this makes various changes and modifications.Additionally, for clarity and brevity, omitting to known function and structure
Description.
Fig. 1 shows the structured flowchart of the wind power plant O&M monitoring system provided according to first embodiment of the present utility model.
Reference picture 1, the wind power plant O&M monitoring system 100 according to first embodiment of the present utility model includes server 11
With handheld device 12, handheld device 12 include the first scanner 121, the first wireless communication module 122 and interactive terminal 123.
The facility information indicated by the first label that first scanner 121 will read is sent to the first wireless communication module
122.Here, the first label can be provided in Quick Response Code or bar code in Awaiting Overhaul equipment, or, the first label also may be used
Think the RF tag being arranged in Awaiting Overhaul equipment.When the first label is Quick Response Code or bar code, the first scanner 121
It is code reader;When the first label is RF tag, the first code reader 121 is radio-frequency card reader.
Here, it is the Quick Response Code, the first scanner 121 that are arranged in Awaiting Overhaul equipment for code reader is with the first label
Example come illustrate using the first scanner 121 will read the first label indicated by Awaiting Overhaul facility information be sent to the first nothing
The process of line communication module 122.Particularly, after user reaches unit, the code reader alignment that handheld device 12 is had is to be checked
The Quick Response Code set in equipment is repaiied to recognize the Awaiting Overhaul facility information corresponding to Quick Response Code, then code reader is to be checked by what is read
Repair facility information and be sent to the first wireless communication module 122.
Used as another example, when the first label is the RF tag that is arranged in Awaiting Overhaul equipment, the first scanner 121 is
During radio-frequency card reader, the is sent to using the Awaiting Overhaul facility information indicated by the first label that the first scanner 121 will read
The process of one wireless communication module 122 is:Radio-frequency card reader launches radiofrequency signal, when the RF tag in Awaiting Overhaul equipment is received
During to the radiofrequency signal launched from radio-frequency card reader, RF tag obtains energy to activate inside from the radiofrequency signal for receiving
Circuit, and the Awaiting Overhaul device coding information on RF tag that will be produced by internal circuit is sent to radio-frequency card reader, penetrates
Awaiting Overhaul facility information of the frequency card reader according to entrained by the Awaiting Overhaul device coding information for receiving identifies RF tag, and will
Awaiting Overhaul facility information is sent to wireless communication module.
The Awaiting Overhaul facility information that first wireless communication module 122 will be received is uploaded to server 11, and from server
The overhaul of the equipments information that 11 the reception servers 11 are fed back according to Awaiting Overhaul facility information, interaction is sent to eventually by overhaul of the equipments information
End 123.
As an example, the first wireless communication module 122 may include WIFI communication module or mobile communication module.But this area
Technical staff the first wireless communication module 122 can be realized using any module for carrying out long range wireless communication.Here,
When the first wireless communication module 122 is WIFI communication module, the measurement equipment to be checked that the first wireless communication module 122 will be received
The process that information is uploaded to server 11 is:The facility information that WIFI communication module will be received is sent to predetermined wireless WIFI and leads to
News base station, the facility information that then predetermined wireless WIFI communication base station will receive again is uploaded to server 11 via Ethernet.
Alternatively, IEEE802.11 communications protocol can be used between WIFI communication module and predetermined wireless WIFI communication base station.
Next, after server 11 receives facility information to be detected, measurement equipment to be checked can be called to believe from database
Cease corresponding overhaul of the equipments information, and overhaul of the equipments information is sent to by interactive terminal by the first wireless communication module 122 again
123.Here, the transmission process of the first wireless communication module 122 is similar with upload procedure, will not be described in great detail herein.
Interactive terminal 123 receives the defeated for overhaul of the equipments information of user input to user's display device service information
The record of examination for entering, the first wireless communication module 122 is sent to by the record of examination of reception, wherein, the first wireless communication module
122 after record of examination is received, and record of examination is uploaded onto the server into 11 to be stored.
Particularly, interactive terminal 123 may include the display of handheld device 12, and the display can believe overhaul of the equipments
Breath is shown to user, to facilitate user to check or operate overhaul of the equipments information, in user is based on overhaul of the equipments information
Overhauling project repair and maintenance is carried out to the device corresponding to the overhauling project of equipment after, user can be to completed maintenance item
Mesh is recorded.For example, if overhauling project is that rectifier is safeguarded, user can after the completion of to rectifier maintenance work,
Rectifier take pictures and is retained or record of examination that another attached explanatory note is completed as maintenance work.Additionally, when interaction is whole
After end 123 receives the record of examination of user input, record of examination can be sent to wireless communication module 122, meanwhile, first
Record of examination is uploaded onto the server 11 to be stored by wireless communication module 122 by foregoing upload mode.By this
Mode, management level can in time understand the status information of equipment.
According to the wind power plant O&M monitoring system that first embodiment of the present utility model is provided, scene can be not only realized
Paperless work, also ensures the promptness of maintained equipment and the reliability of asset of equipments state tracking.
On the other hand, because the complete degree of the instrument entrained by user is one of key factor of influence plant maintenance,
Therefore, the basic demand movable in order to meet O&M, embodiment of the present utility model is except including server 11 and handheld device
Outside 12, may also include determining that user carries the part of instrument complete degree.
Fig. 2 shows the structured flowchart of the wind power plant O&M monitoring system provided according to second embodiment of the present utility model.
As shown in Fig. 2 the wind power plant O&M monitoring system 100 according to second embodiment of the present utility model offer is except bag
Include outside server 11 and handheld device 12, also including tool detection machine 13, wherein, tool detection machine 13 may include:Second sweeps
Retouch device 131, comparator 132 and display terminal 133.Wherein, server 11 and the first scanner included by handheld device 12
121st, the first wireless communication module 122 and interactive terminal 123 are identical with first embodiment, therefore, will not be described in great detail herein.
Additionally, the second scanner 131 will read the second label indicated by tool information be sent to comparator 132.Make
It is example, the second label can be the RF tag being arranged on overhaul of the equipments instrument, and the second scanner 131 can be read for radio frequency
Card device.
Particularly, user can carry the tool box equipped with overhaul of the equipments instrument near the second scanner 131, the second scanning
Device 131 launches radiofrequency signal, when the second label set on the overhaul of the equipments instrument in tool box receives radiofrequency signal, the
Two labels obtain energy to activate internal circuit, and the work on the second label that will be produced by internal circuit from radiofrequency signal
Tool coding information is sent to the second scanner 131, and the second scanner 131 identifies the second mark according to the instrument coding information for receiving
Entrained tool information is signed, and tool information is sent to comparator 122.
Whether comparator 122 carries the instruction user produced by comparing tool information and predetermined tool information entirely
The object information of portion's overhaul of the equipments instrument is sent to display terminal.
For example, the tool information entrained by the second label for identifying of the second scanner 131 is A, B, C, D and E, predetermined work
Tool information is also A, B, C, D and E, then, the overhaul of the equipments instrument for producing user to carry can be complete result by comparator 122
Information, to prove that the overhaul of the equipments instrument that user carries is sufficient for real work needs.Here, in this example, as a result believe
The instrument that breath display user carries is complete.But, if the work entrained by the second label for identifying of the second scanner 131
Tool information is A, B and C, and predetermined tool information remains as A, B, C, D and E, then, comparator 122 will produce what user carried
The incomplete object information of overhaul of the equipments instrument, the object information incomplete to prove the overhaul of the equipments instrument that user carries.
Also, object information can be presented to user by display terminal 133.Preferably, except including work in object information
Whether tool outside complete information, also including the relevant information of instrument lacking in prompting user.
Optionally, in addition, it is consistent to ensure the currently stored predetermined tool information of predetermined tool information and server, work
Tool detection machine 13 also includes the second wireless communication module 134, and here, the second wireless communication module 134 can be WIFI communication mould
Block or mobile communication module, additionally, those skilled in the art can also be using any module for carrying out long range wireless communication
To realize the second communication module 134.
Here, comparator 132 can interact to update pre- in real time by the second wireless communication module 134 and server
Determine tool information, the predetermined tool information predetermined tool information phase currently stored with server is ensured with this way
Symbol.
Through the above way, can check whether self-contained overhaul of the equipments instrument is complete before user will work
It is standby, understand the instrument that lacks in time in the case of incomplete and remedy in time, it is ensured that maintenance work is smoothed out.
In sum, in the wind power plant O&M monitoring system according to exemplary embodiment of the present utility model, not only may be used
To realize the paperless work at scene, the promptness of maintained equipment and the reliability of asset of equipments state tracking are also ensured.
Describe the utility model in conjunction with specific embodiments above, but implementation not limited to this of the present utility model.
In spirit and scope of the present utility model, those skilled in the art can carry out various modifications and variations, and these are changed and become
Type will fall within the scope of the appended claims.
Claims (10)
1. a kind of wind power plant O&M monitoring system, it is characterised in that the wind power plant O&M monitoring system includes:Server and hand
Holding equipment, the handheld device includes the first scanner, the first wireless communication module and interactive terminal,
Wherein, the Awaiting Overhaul facility information indicated by the first label that first scanner will read is sent to first nothing
Line communication module,
The Awaiting Overhaul facility information that first wireless communication module will be received is uploaded to the server, and from described
Server receives the overhaul of the equipments information that the server feeds back according to the Awaiting Overhaul facility information, by overhaul of the equipments letter
Breath is sent to the interactive terminal,
The interactive terminal is presented the overhaul of the equipments information, and the record of examination for the overhaul of the equipments information that will be received
It is sent to first wireless communication module.
2. wind power plant O&M monitoring system as claimed in claim 1, it is characterised in that
The record of examination is uploaded to the server to be stored by first wireless communication module.
3. wind power plant O&M monitoring system as claimed in claim 1 or 2, it is characterised in that the wind power plant O&M monitoring system
System also includes tool detection machine, wherein, the tool detection machine includes:Second scanner, comparator and display terminal,
Wherein, the tool information indicated by the second label that second scanner will read is sent to the comparator,
Whether the comparator carries the instruction user produced by the relatively tool information and predetermined tool information
The object information of armamentarium service kit is sent to the display terminal,
The display terminal is presented the object information.
4. wind power plant O&M monitoring system as claimed in claim 3, it is characterised in that the tool detection machine also includes second
Wireless communication module, wherein, the comparator is interacted in real time by the second wireless communication module with the server
Update the predetermined tool information.
5. wind power plant O&M monitoring system as claimed in claim 4, it is characterised in that first wireless communication module and institute
Stating the second wireless communication module includes WIFI communication module or mobile communication module.
6. wind power plant O&M monitoring system as claimed in claim 4, it is characterised in that first scanner is radio frequency Card Reader
Device, first label is RF tag.
7. wind power plant O&M monitoring system as claimed in claim 6, it is characterised in that first label is arranged on Awaiting Overhaul
In equipment.
8. wind power plant O&M monitoring system as claimed in claim 6, it is characterised in that first label is Quick Response Code or bar
Shape code.
9. wind power plant O&M monitoring system as claimed in claim 4, it is characterised in that second scanner is radio frequency Card Reader
Device, second label is RF tag.
10. wind power plant O&M monitoring system as claimed in claim 9, it is characterised in that second label is arranged on equipment
On service kit.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201621362192.1U CN206236130U (en) | 2016-12-12 | 2016-12-12 | Wind power plant O&M monitoring system |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201621362192.1U CN206236130U (en) | 2016-12-12 | 2016-12-12 | Wind power plant O&M monitoring system |
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CN206236130U true CN206236130U (en) | 2017-06-09 |
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ID=58992516
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CN201621362192.1U Active CN206236130U (en) | 2016-12-12 | 2016-12-12 | Wind power plant O&M monitoring system |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107292991A (en) * | 2017-06-28 | 2017-10-24 | 国网山东省电力公司济南市历城区供电公司 | A kind of substation equipment examination and repair system based on Quick Response Code |
CN112348210A (en) * | 2020-10-31 | 2021-02-09 | 华能新能源上海发电有限公司 | Wind power plant equipment management system and management method |
-
2016
- 2016-12-12 CN CN201621362192.1U patent/CN206236130U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107292991A (en) * | 2017-06-28 | 2017-10-24 | 国网山东省电力公司济南市历城区供电公司 | A kind of substation equipment examination and repair system based on Quick Response Code |
CN112348210A (en) * | 2020-10-31 | 2021-02-09 | 华能新能源上海发电有限公司 | Wind power plant equipment management system and management method |
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