CN103543509A - Method and system for laying optical cables in intelligent transformer substation - Google Patents
Method and system for laying optical cables in intelligent transformer substation Download PDFInfo
- Publication number
- CN103543509A CN103543509A CN201310476574.1A CN201310476574A CN103543509A CN 103543509 A CN103543509 A CN 103543509A CN 201310476574 A CN201310476574 A CN 201310476574A CN 103543509 A CN103543509 A CN 103543509A
- Authority
- CN
- China
- Prior art keywords
- secondary device
- intelligent substation
- inter
- annexation
- exchange
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Granted
Links
Images
Abstract
The invention discloses a method and a system for laying optical cables in an intelligent transformer substation. The method includes acquiring connection relationship between secondary devices, between switchboards and between each secondary device and each switchboard of the intelligent transformer substation, determining the relationship of subordination between each screen or cabinet and each secondary device and or/each switchboard of the intelligent transformer substation, generating a wiring structural drawing of optical fiber distribution boxes of the intelligent transformer substation according to the relationship of subordination and the connection relationship, counting the starting points, the terminal points, the length and the type of the optical cables between the secondary devices, between the switchboards and between each secondary device and each switchboard according to the connection relationship, the relationship of subordination and the generated wiring structural drawing of the optical fiber distribution boxes of the intelligent transformer substation, and finally laying the optical cables in the intelligent transformer substation according to the starting points, the terminal points, the length and the type of the optical cables between the secondary devices, between the switchboards and the between each secondary device and each switchboard as counted. Therefore, by application of the method and the system, the laying efficiency can be improved while the error rate can be lowered.
Description
Technical field
The present invention relates to power technology field, particularly relate to the method and system of laying optical cable in a kind of intelligent substation.
Background technology
At present, in smart electric grid system, the laying optical cable of equipment room in later stage intelligent substation, with early stage intelligent substation equipment room annexation arrange separate, can not share, after the design drawing of change for the annexation between characterization device, also need through complicated operation, to obtain optical cable information again, again according to the optical cable information laying optical cable of obtaining, but, the above-mentioned process error rate of obtaining optical cable information is high, verification is loaded down with trivial details, and then causes the process need duplication check corrigendum of laying optical cable, and workload is large, waste time and energy, efficiency is extremely low.
Summary of the invention
Based on this, being necessary, for the problem wasting time and energy during laying optical cable in above-mentioned intelligent substation, efficiency is extremely low, provides the method and system of laying optical cable in a kind of intelligent substation.
A method for laying optical cable in intelligent substation, comprises the following steps:
Obtain in intelligent substation between each secondary device, the annexation of each inter-exchange and each secondary device and each inter-exchange;
Determine the membership of respectively shielding cabinet and each secondary device and/or each inter-exchange in described intelligent substation, and according to described membership and described annexation, generate the distribution structure figure of fiber box in described intelligent substation;
Distribution structure figure according to fiber box in the described intelligent substation of described annexation, described membership and generation, adds up between each secondary device, starting point, terminal, length and the type of each inter-exchange and each secondary device and each inter-exchange optical cable;
According between each secondary device of statistics, starting point, terminal, length and the type of each inter-exchange and each secondary device and each inter-exchange optical cable, laying optical cable in described intelligent substation.
A system for laying optical cable in intelligent substation, comprising:
Acquisition module, for obtaining between each secondary device of intelligent substation, the annexation of each inter-exchange and each secondary device and each inter-exchange;
Wiring module, for the membership of determining that described intelligent substation respectively shields cabinet and each secondary device and/or each inter-exchange, and generates the distribution structure figure of fiber box in described intelligent substation according to described membership and described annexation;
Statistical module, for according to the distribution structure figure of the described intelligent substation fiber box of described annexation, described membership and generation, add up between each secondary device, starting point, terminal, length and the type of each inter-exchange and each secondary device and each inter-exchange optical cable;
Lay module, for according between each secondary device of statistics, starting point, terminal, length and the type of each inter-exchange and each secondary device and each inter-exchange optical cable, laying optical cable in described intelligent substation.
The method and system of laying optical cable in above-mentioned intelligent substation, based in intelligent substation between each secondary device, the annexation of each inter-exchange and each secondary device and each inter-exchange, add up between each secondary device, the starting point of each inter-exchange and each secondary device and each inter-exchange optical cable, terminal, length and type, again according between each secondary device of statistics, the starting point of each inter-exchange and each secondary device and each inter-exchange optical cable, terminal, length and type laying optical cable, can make optical cable information be consistent with being connected of equipment room in intelligent substation in real time, can reduce in duplication check intelligent substation the number of times of laying optical cable, improve the fiber cable laying efficiency of intelligent substation.
Accompanying drawing explanation
Fig. 1 is the schematic flow sheet of method first embodiment of laying optical cable in intelligent substation of the present invention;
Fig. 2 is the schematic flow sheet of method second embodiment of laying optical cable in intelligent substation of the present invention;
Fig. 3 is the structural representation of system first embodiment of laying optical cable in intelligent substation of the present invention.
Embodiment
Refer to Fig. 1, Fig. 1 is the schematic flow sheet of method first embodiment of laying optical cable in intelligent substation of the present invention.
In the described intelligent substation of present embodiment, the method for laying optical cable comprises the following steps:
Step 101, obtains in intelligent substation between each secondary device, the annexation of each inter-exchange and each secondary device and each inter-exchange.
Step 102, determines the membership of respectively shielding cabinet and each secondary device and/or each inter-exchange in described intelligent substation, and according to described membership and described annexation, generates the distribution structure figure of fiber box in described intelligent substation.
Step 103, distribution structure figure according to fiber box in the described intelligent substation of described annexation, described membership and generation, adds up between each secondary device, starting point, terminal, length and the type of each inter-exchange and each secondary device and each inter-exchange optical cable.
Step 104, according between each secondary device of statistics, starting point, terminal, length and the type of each inter-exchange and each secondary device and each inter-exchange optical cable, laying optical cable in described intelligent substation.
The method of laying optical cable in intelligent substation described in present embodiment, based in intelligent substation between each secondary device, the annexation of each inter-exchange and each secondary device and each inter-exchange, add up between each secondary device, the starting point of each inter-exchange and each secondary device and each inter-exchange optical cable, terminal, length and type, again according between each secondary device of statistics, the starting point of each inter-exchange and each secondary device and each inter-exchange optical cable, terminal, length and type laying optical cable, optical cable information is consistent with being connected of equipment room in intelligent substation in real time, can reduce in duplication check intelligent substation the number of times of laying optical cable, improve the fiber cable laying efficiency of intelligent substation.
Wherein, for step 101, described secondary device is the accessory equipment for primary equipment is supervised, measures, controls, protected or regulates, and not direct and electric energy produces the equipment of contact.Preferably, comprise merge cells, intelligent terminal, route protection, measure and control device, bus protection, main transformer protection, breaker protection, mother protection, failure wave-recording, the territory protection of standing, prepared auto restart, high resistance protection etc.
Preferably, the annexation between each secondary device is divided into two classes: 1, cyberrelationship, links together by switch between secondary device; 2, direct connection relation, links together by optical fiber between secondary device.Wherein, cyberrelationship does not need to calculate in optical cable inventory, without laying optical cable, uses the first default lines (as breakpoint line) to connect during drafting.Direct connection relation need to be calculated in optical cable inventory, needs laying optical cable, uses the second default lines (as the straight line without breakpoint) to connect during drafting.
In one embodiment, described in, obtain in intelligent substation between each secondary device, the step of the annexation of each inter-exchange and each secondary device and each inter-exchange comprises the following steps:
Step 1011, draws the annexation between each secondary device in described intelligent substation.
Step 1012, in annexation from the described intelligent substation of drawing between each secondary device, read each secondary device in described intelligent substation, draw the annexation of each inter-exchange in described intelligent substation and each switch and each secondary device of reading between annexation.
In the present embodiment, in annexation from the described intelligent substation of drawing between each secondary device, read each secondary device in described intelligent substation, while again drawing, do not need to repaint secondary device, can reduce operation steps, save the running time, can also avoid the inconsistent of secondary device number.
Wherein, for step 1011, in the process of the annexation in drawing described intelligent substation between each secondary device, can first draw each secondary device used in described intelligent substation.Draw again the annexation between each secondary device.
For step 1012, drafting be the network structure of intelligent substation, the switch artwork providing by intelligent substation drafting system, generates switch.In concrete generative process, the annexation between switch and inter-exchange, secondary device is all direct connection relation, all needs to calculate in optical cable inventory, all needs laying optical cable, uses the 3rd default lines (as wave) to connect.
Preferably, in step 1011 and step 1012, can utilize the annexation between each secondary device, topological relation between each secondary device of type selecting, usage quantity and the intelligent substation of sign secondary device.Annexation between each secondary device that utilizes the annexation of inter-exchange and each switch and read, can identify the network topology of intelligent substation, the type selecting of switch and usage quantity.
Further, after step 1012, also the annexation of above-mentioned drafting can be stored in the repository of intelligent substation, described repository is preferably using SQLite document data bank as the database of preserving intelligent substation configuration information, while needing the annexation of above-mentioned generation, can directly from described repository, obtain.
For step 102, in described intelligent substation, respectively shield in the membership of cabinet and each secondary device and/or each inter-exchange, if a certain secondary device and/or switch are under the jurisdiction of a certain screen cabinet, this secondary device and/or switch are built in this screen cabinet.
Preferably, described fiber box is built in described screen cabinet, and the distribution structure figure of described fiber box is the deployment route of the optical fiber that each secondary device that screen places in cabinet and/or inter-exchange connect.
In one embodiment, in described definite described intelligent substation, the step of the membership between each secondary device and each screen cabinet is further comprising the steps of:
From described annexation, read each secondary device and each switch of described intelligent substation, and each secondary device and each switch distribution screen cabinet for reading, membership between definite each secondary device reading and/or each switch and each screen cabinet, wherein, in described intelligent substation, be under the jurisdiction of and shield the secondary device of cabinet and/or switch in described screen cabinet.
In above-mentioned steps, can be that each secondary device and each switch reading distributes screen cabinet according to customer requirements or predefined rule.
For step 103, the starting point of described optical cable preferably includes the start-up screen cabinet of optical cable, the equipment connecting in this start-up screen cabinet and the information such as splicing box mouth of this optical fiber in this start-up screen cabinet; The terminal of described optical cable preferably includes the object screen cabinet of optical cable, the equipment connecting in this object screen cabinet and the information such as splicing box mouth of this optical fiber in object screen cabinet.The type of described optical cable preferably includes construction numbering, core number, total core number and the optical cable numbering of optical cable.
In one embodiment, between each secondary device of described statistics, after the step of starting point, terminal, length and the type of each inter-exchange and each secondary device and each inter-exchange optical cable, the method of laying optical cable in intelligent substation of the present invention, further comprising the steps of:
According between each secondary device of statistics, starting point, terminal, length and the type of each inter-exchange and each secondary device and each inter-exchange optical cable, by AutoCAD design platform, export the optical cable inventory of described intelligent substation.
The method of laying optical cable in intelligent substation described in the present embodiment, based in intelligent substation between each secondary device, the annexation of each inter-exchange and each secondary device and each inter-exchange, add up between each secondary device, the starting point of each inter-exchange and each secondary device and each inter-exchange optical cable, terminal, length and type, and according to statistics, generate the optical cable inventory of described intelligent substation, can make optical cable inventory be consistent with being connected of equipment room in intelligent substation in real time, reduced because changing between each secondary device, the annexation of each inter-exchange and each secondary device and each inter-exchange and repeat to revise the number of times of optical cable inventory content, for the construction of intelligent substation provides optical cable inventory accurately, this system has also been exported optical fiber distributing drawing automatically simultaneously, improved the efficiency of intelligent substation design configurations work.
Wherein, described optical cable inventory is the foundation of discharging optical cable and guiding construction, the archives material of intelligent substation operation maintenance, preferably includes the total length that numbering, start point information, model, specification, the statistic of classification of every optical cable go out, and optical cable inventory gauge outfit is as shown in table 1:
Preferably, generate the detailed process of described optical cable inventory, exactly starting point in table 1 and endpoint information are mapped one by one.Corresponding standard be exactly secondary device and/annexation of switch and secondary device and/or inter-exchange, i.e. the annexation of acquisition in step 101, concrete operations flow process can be as described below:
According to the membership of respectively shielding cabinet and each secondary device and/or each inter-exchange in the described intelligent substation of determining, generate screen cabinet figure, and according to the distribution structure figure of described annexation, described screen cabinet figure and described fiber box add up between each secondary device, starting point, terminal, length and the type of each inter-exchange and each secondary device and each inter-exchange optical cable, ST Stuffing Table 1.Described screen cabinet figure comprises sign and the described sign of respectively shielding secondary device and/or the switch of cabinet of respectively shielding cabinet.Splicing box mouth is corresponding port numbers.Armored optical cable information is determined according to practical situations by user.
Refer to Fig. 2, Fig. 2 is the schematic flow sheet of method second embodiment of laying optical cable in intelligent substation of the present invention.
In the described intelligent substation of present embodiment, the method for laying optical cable and the difference of the first embodiment are: the step of the described distribution structure figure that generates fiber box in described intelligent substation according to described membership and described annexation is further comprising the steps of:
The method of laying optical cable in intelligent substation described in present embodiment, can arrange the wiring mode of respectively shielding the fiber box in cabinet accurately according to described membership, makes it consistent with the actual annexation of the equipment room of intelligent substation.
Wherein, in the concrete configuration process of fiber box, the membership between secondary device and/or switch and screen cabinet, can supplement and complete this side apparatus, and this side apparatus is the equipment that belongs to this screen cabinet.According between each secondary device, the annexation of each inter-exchange and each secondary device and each inter-exchange can improve offside facility information, this side apparatus connected is to side apparatus.And then according to the actual conditions of intelligent substation, adjust the information such as port numbers, port type.
Refer to Fig. 3, Fig. 3 is the structural representation of system first embodiment of laying optical cable in intelligent substation of the present invention.
In the described intelligent substation of present embodiment, the system of laying optical cable comprises acquisition module 100, Wiring module 200, statistical module 300 and lays module 400, wherein:
The system of laying optical cable in intelligent substation described in present embodiment, based in intelligent substation between each secondary device, the annexation of each inter-exchange and each secondary device and each inter-exchange, add up between each secondary device, the starting point of each inter-exchange and each secondary device and each inter-exchange optical cable, terminal, length and type, again according between each secondary device of statistics, the starting point of each inter-exchange and each secondary device and each inter-exchange optical cable, terminal, length and type laying optical cable, optical cable information is consistent with being connected of equipment room in intelligent substation in real time, can reduce in duplication check intelligent substation the number of times of laying optical cable, improve the fiber cable laying efficiency of intelligent substation.
Wherein, for acquisition module 100, described secondary device is the accessory equipment for primary equipment is supervised, measures, controls, protected or regulates, and not direct and electric energy produces the equipment of contact.Preferably, comprise merge cells, intelligent terminal, route protection, measure and control device, bus protection, main transformer protection, breaker protection, mother protection, failure wave-recording, the territory protection of standing, prepared auto restart, high resistance protection etc.
Preferably, the annexation between each secondary device is divided into two classes: 1, cyberrelationship, links together by switch between secondary device; 2, direct connection relation, links together by optical fiber between secondary device.Wherein, cyberrelationship does not need to calculate in optical cable inventory, without laying optical cable, uses the first default lines (as breakpoint line) to connect during drafting.Direct connection relation need to be calculated in optical cable inventory, needs laying optical cable, uses the second default lines (as the straight line without breakpoint) to connect during drafting.
In one embodiment, described acquisition module 100 also can be used for:
Draw the annexation between each secondary device in described intelligent substation.
In annexation from the described intelligent substation of drawing between each secondary device, read each secondary device in described intelligent substation, draw the annexation of each inter-exchange in described intelligent substation and each switch and each secondary device of reading between annexation.
In the present embodiment, in annexation from the described intelligent substation of drawing between each secondary device, read each secondary device in described intelligent substation, while again drawing, do not need to repaint secondary device, can reduce operation steps, save the running time, can also avoid the inconsistent of secondary device number.
Wherein, in the process of the annexation in drawing described intelligent substation between each secondary device, can first draw each secondary device used in described intelligent substation.Draw again the annexation between each secondary device.Annexation in the described intelligent substation of drawing between the annexation of each inter-exchange and each switch and each secondary device of reading is the network structure of intelligent substation, the switch artwork providing by intelligent substation drafting system, generates switch.In concrete generative process, the annexation between switch and inter-exchange, secondary device is all direct connection relation, all needs to calculate in optical cable inventory, all needs laying optical cable, uses the 3rd default lines (as wave) to connect.
Preferably, acquisition module 100 also can utilize the annexation between each secondary device, topological relation between each secondary device of type selecting, usage quantity and the intelligent substation of sign secondary device.Annexation between each secondary device that utilizes the annexation of inter-exchange and each switch and read, can identify the network topology of intelligent substation, the type selecting of switch and usage quantity.
Further, also the annexation of above-mentioned drafting can be stored in the repository of intelligent substation, described repository is preferably using SQLite document data bank as the database of preserving intelligent substation configuration information, while needing the annexation of above-mentioned generation, can directly from described repository, obtain.
For Wiring module 200, in described intelligent substation, respectively shield in the membership of cabinet and each secondary device and/or each inter-exchange, if a certain secondary device and/or switch are under the jurisdiction of a certain screen cabinet, this secondary device and/or switch are built in this screen cabinet.
Preferably, described fiber box is built in described screen cabinet, and the distribution structure figure of described fiber box is the deployment route of the optical fiber that each secondary device that screen places in cabinet and/or inter-exchange connect.
In one embodiment, described Wiring module 200 also can be used for reading each secondary device and each switch of described intelligent substation from described annexation, and each secondary device and each switch distribution screen cabinet for reading, membership between definite each secondary device reading and/or each switch and each screen cabinet, wherein, in described intelligent substation, be under the jurisdiction of and shield the secondary device of cabinet and/or switch in described screen cabinet.
In aforesaid operations, Wiring module 200 can be that each secondary device and each switch reading distributes screen cabinet according to customer requirements or predefined rule.
For statistical module 300, the starting point of described optical cable preferably includes the start-up screen cabinet of optical cable, the equipment connecting in this start-up screen cabinet and the information such as splicing box mouth of this optical fiber in this start-up screen cabinet; The terminal of described optical cable preferably includes the object screen cabinet of optical cable, the equipment connecting in this object screen cabinet and the information such as splicing box mouth of this optical fiber in object screen cabinet.The type of described optical cable preferably includes construction numbering, core number, total core number and the optical cable numbering of optical cable.
In one embodiment, in described intelligent substation, the system of laying optical cable also can comprise inventory module, for according between each secondary device of statistics, starting point, terminal, length and the type of each inter-exchange and each secondary device and each inter-exchange optical cable, by AutoCAD design platform, export the optical cable inventory of described intelligent substation.
The system of laying optical cable in intelligent substation described in the present embodiment, based in intelligent substation between each secondary device, the annexation of each inter-exchange and each secondary device and each inter-exchange, add up between each secondary device, the starting point of each inter-exchange and each secondary device and each inter-exchange optical cable, terminal, length and type, and according to statistics, generate the optical cable inventory of described intelligent substation, can make optical cable inventory be consistent with being connected of equipment room in intelligent substation in real time, reduced because changing between each secondary device, the annexation of each inter-exchange and each secondary device and each inter-exchange and repeat to revise the number of times of optical cable inventory content, for the construction of intelligent substation provides optical cable inventory accurately, this system has also been exported optical fiber distributing drawing automatically simultaneously, improved the efficiency of intelligent substation design configurations work.
Wherein, described optical cable inventory is the foundation of discharging optical cable and guiding construction, the archives material of intelligent substation operation maintenance, preferably includes the total length that numbering, start point information, model, specification, the statistic of classification of every optical cable go out, and optical cable inventory gauge outfit is as shown in table 1.
Preferably, generate the detailed process of described optical cable inventory, exactly starting point in table 1 and endpoint information are mapped one by one.Corresponding standard be exactly secondary device and/annexation of switch and secondary device and/or inter-exchange, i.e. the annexation of acquisition module 100 acquisitions, concrete operations flow process can be as described below:
According to the membership of respectively shielding cabinet and each secondary device and/or each inter-exchange in the described intelligent substation of determining, generate screen cabinet figure, and according to the distribution structure figure of described annexation, described screen cabinet figure and described fiber box add up between each secondary device, starting point, terminal, length and the type of each inter-exchange and each secondary device and each inter-exchange optical cable, ST Stuffing Table 1.Described screen cabinet figure comprises sign and the described sign of respectively shielding secondary device and/or the switch of cabinet of respectively shielding cabinet.Splicing box mouth is corresponding port numbers.Armored optical cable information is determined according to practical situations by user.
The following stated is system second embodiment of laying optical cable in intelligent substation of the present invention.
In the described intelligent substation of present embodiment, the system of laying optical cable and the difference of the first embodiment are: Wiring module 200 also can be used for:
According to described membership, create and respectively to shield cabinet, and by and each screen cabinet between exist the secondary device of membership and/or switch to import respectively to shield in cabinet, wherein, the name of respectively shielding cabinet of establishment differs from one another.
From described annexation, read the annexation that imports the annexation of the equipment room in each screen cabinet and the equipment in each screen cabinet and the equipment room in other screen cabinet, wherein, described equipment comprises secondary device and/or switch.
According to the annexation reading, arrange each screen cabinet in the number of fiber box, the port type of the port number of fiber box or fiber box or the wiring mode of fiber box.
The system of laying optical cable in intelligent substation described in present embodiment, can arrange the wiring mode of respectively shielding the fiber box in cabinet accurately according to described membership, makes it consistent with the actual annexation of the equipment room of intelligent substation.
Wherein, in the concrete configuration process of fiber box, the membership between secondary device and/or switch and screen cabinet, can supplement and complete this side apparatus, and this side apparatus is the equipment that belongs to this screen cabinet.According between each secondary device, the annexation of each inter-exchange and each secondary device and each inter-exchange can improve offside facility information, this side apparatus connected is to side apparatus.And then according to the actual conditions of intelligent substation, adjust the information such as port numbers, port type.
The above embodiment has only expressed several embodiment of the present invention, and it describes comparatively concrete and detailed, but can not therefore be interpreted as the restriction to the scope of the claims of the present invention.It should be pointed out that for the person of ordinary skill of the art, without departing from the inventive concept of the premise, can also make some distortion and improvement, these all belong to protection scope of the present invention.Therefore, the protection domain of patent of the present invention should be as the criterion with claims.
Claims (10)
1. a method for laying optical cable in intelligent substation, is characterized in that, comprises the following steps:
Obtain in intelligent substation between each secondary device, the annexation of each inter-exchange and each secondary device and each inter-exchange;
Determine the membership of respectively shielding cabinet and each secondary device and/or each inter-exchange in described intelligent substation, and according to described membership and described annexation, generate the distribution structure figure of fiber box in described intelligent substation;
Distribution structure figure according to fiber box in the described intelligent substation of described annexation, described membership and generation, adds up between each secondary device, starting point, terminal, length and the type of each inter-exchange and each secondary device and each inter-exchange optical cable;
According between each secondary device of statistics, starting point, terminal, length and the type of each inter-exchange and each secondary device and each inter-exchange optical cable, laying optical cable in described intelligent substation.
2. the method for laying optical cable in intelligent substation according to claim 1, is characterized in that, described in obtain in intelligent substation between each secondary device, the step of the annexation of each inter-exchange and each secondary device and each inter-exchange comprises the following steps:
Draw the annexation between each secondary device in described intelligent substation;
In annexation from the described intelligent substation of drawing between each secondary device, read each secondary device in described intelligent substation, draw the annexation of each inter-exchange in described intelligent substation and each switch and each secondary device of reading between annexation.
3. the method for laying optical cable in intelligent substation according to claim 1, is characterized in that, the step of the membership in described definite described intelligent substation between each secondary device and each screen cabinet is further comprising the steps of:
From described annexation, read each secondary device and each switch of described intelligent substation, and each secondary device and each switch distribution screen cabinet for reading, membership between definite each secondary device reading and/or each switch and each screen cabinet, wherein, in described intelligent substation, be under the jurisdiction of and shield the secondary device of cabinet and/or switch in described screen cabinet.
4. the method for laying optical cable in intelligent substation according to claim 1, is characterized in that, the step of the described distribution structure figure that generates fiber box in described intelligent substation according to described membership and described annexation is further comprising the steps of:
According to described membership, create and respectively to shield cabinet, and by and each screen cabinet between exist the secondary device of membership and/or switch to import respectively to shield in cabinet, wherein, the sign of respectively shielding cabinet of establishment differs from one another;
From described annexation, read the annexation that imports the annexation of the equipment room in each screen cabinet and the equipment in each screen cabinet and the equipment room in other screen cabinet, wherein, described equipment comprises secondary device and/or switch;
According to the annexation reading, arrange each screen cabinet in the number of fiber box, the port type of the port number of fiber box or fiber box or the wiring mode of fiber box.
5. according to the method for laying optical cable in the intelligent substation described in any one in claim 1 to 4, it is characterized in that, between each secondary device of described statistics, after the step of starting point, terminal, length and the type of each inter-exchange and each secondary device and each inter-exchange optical cable, further comprising the steps of:
According between each secondary device of statistics, starting point, terminal, length and the type of each inter-exchange and each secondary device and each inter-exchange optical cable, by AutoCAD design platform, export the optical cable inventory of described intelligent substation.
6. a system for laying optical cable in intelligent substation, is characterized in that, comprising:
Acquisition module, for obtaining between each secondary device of intelligent substation, the annexation of each inter-exchange and each secondary device and each inter-exchange;
Wiring module, for the membership of determining that described intelligent substation respectively shields cabinet and each secondary device and/or each inter-exchange, and generates the distribution structure figure of fiber box in described intelligent substation according to described membership and described annexation;
Statistical module, for according to the distribution structure figure of the described intelligent substation fiber box of described annexation, described membership and generation, add up between each secondary device, starting point, terminal, length and the type of each inter-exchange and each secondary device and each inter-exchange optical cable;
Lay module, for according between each secondary device of statistics, starting point, terminal, length and the type of each inter-exchange and each secondary device and each inter-exchange optical cable, laying optical cable in described intelligent substation.
7. the system of laying optical cable in intelligent substation according to claim 6, is characterized in that, described acquisition module also for:
Draw the annexation between each secondary device in described intelligent substation;
In annexation from the described intelligent substation of drawing between each secondary device, read each secondary device in described intelligent substation, draw the annexation of each inter-exchange in described intelligent substation and each switch and each secondary device of reading between annexation.
8. the system of laying optical cable in intelligent substation according to claim 6, it is characterized in that, described Wiring module is also for reading each secondary device and each switch of described intelligent substation from described annexation, and each secondary device and each switch distribution screen cabinet for reading, membership between definite each secondary device reading and/or each switch and each screen cabinet, wherein, in described intelligent substation, be under the jurisdiction of and shield the secondary device of cabinet and/or switch in described screen cabinet.
9. the system of laying optical cable in intelligent substation according to claim 6, is characterized in that, described Wiring module also for:
According to described membership, create and respectively to shield cabinet, and by and each screen cabinet between exist the secondary device of membership and/or switch to import respectively to shield in cabinet, wherein, the sign of respectively shielding cabinet of establishment differs from one another;
From described annexation, read the annexation that imports the annexation of the equipment room in each screen cabinet and the equipment in each screen cabinet and the equipment room in other screen cabinet, wherein, described equipment comprises secondary device and/or switch;
According to the annexation reading, arrange each screen cabinet in the number of fiber box, the port type of the port number of fiber box or fiber box or the wiring mode of fiber box.
10. according to the system of laying optical cable in the intelligent substation described in any one in claim 6 to 9, it is characterized in that, also comprise inventory module, for according between each secondary device of statistics, starting point, terminal, length and the type of each inter-exchange and each secondary device and each inter-exchange optical cable, by AutoCAD design platform, export the optical cable inventory of described intelligent substation.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201310476574.1A CN103543509B (en) | 2013-10-12 | 2013-10-12 | The method and system of laying optical cable in intelligent substation |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201310476574.1A CN103543509B (en) | 2013-10-12 | 2013-10-12 | The method and system of laying optical cable in intelligent substation |
Publications (2)
Publication Number | Publication Date |
---|---|
CN103543509A true CN103543509A (en) | 2014-01-29 |
CN103543509B CN103543509B (en) | 2015-12-23 |
Family
ID=49967119
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201310476574.1A Active CN103543509B (en) | 2013-10-12 | 2013-10-12 | The method and system of laying optical cable in intelligent substation |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN103543509B (en) |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105811320A (en) * | 2016-03-15 | 2016-07-27 | 中国能源建设集团江苏省电力设计院有限公司 | Length estimation method for secondary cables or optical cables of substation |
CN112817936A (en) * | 2021-01-22 | 2021-05-18 | 中国电力工程顾问集团西北电力设计院有限公司 | Automatic generation method for prefabricated optical cable and fusion-free optical fiber distribution box of intelligent substation |
Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101989312A (en) * | 2010-11-18 | 2011-03-23 | 江苏省电力设计院 | Graphical intelligent transformer substation model design method based on computer-aided design (CAD) |
CN102270261A (en) * | 2011-08-09 | 2011-12-07 | 山东电力工程咨询院有限公司 | Design method for intelligent transformer station model based on CAD (Computer-Aided Design) graph and model integration |
CN103020360A (en) * | 2012-12-17 | 2013-04-03 | 江苏省电力设计院 | Integration design method of intelligent substation based on three-dimensional design platform and professional software |
CN103187801A (en) * | 2011-12-31 | 2013-07-03 | 山东电力工程咨询院有限公司 | Optical fiber distribution frame port configuration method in intelligent transformer substation secondary system |
-
2013
- 2013-10-12 CN CN201310476574.1A patent/CN103543509B/en active Active
Patent Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101989312A (en) * | 2010-11-18 | 2011-03-23 | 江苏省电力设计院 | Graphical intelligent transformer substation model design method based on computer-aided design (CAD) |
CN102270261A (en) * | 2011-08-09 | 2011-12-07 | 山东电力工程咨询院有限公司 | Design method for intelligent transformer station model based on CAD (Computer-Aided Design) graph and model integration |
CN103187801A (en) * | 2011-12-31 | 2013-07-03 | 山东电力工程咨询院有限公司 | Optical fiber distribution frame port configuration method in intelligent transformer substation secondary system |
CN103020360A (en) * | 2012-12-17 | 2013-04-03 | 江苏省电力设计院 | Integration design method of intelligent substation based on three-dimensional design platform and professional software |
Non-Patent Citations (1)
Title |
---|
刘召杰: "智能变电站二次点光缆自动敷设设计及全流程管理", 《安徽电气工程职业技术学院学报》 * |
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105811320A (en) * | 2016-03-15 | 2016-07-27 | 中国能源建设集团江苏省电力设计院有限公司 | Length estimation method for secondary cables or optical cables of substation |
CN112817936A (en) * | 2021-01-22 | 2021-05-18 | 中国电力工程顾问集团西北电力设计院有限公司 | Automatic generation method for prefabricated optical cable and fusion-free optical fiber distribution box of intelligent substation |
CN112817936B (en) * | 2021-01-22 | 2023-11-14 | 中国电力工程顾问集团西北电力设计院有限公司 | Automatic generation method of prefabricated optical cable and welding-free optical fiber distribution box of intelligent substation |
Also Published As
Publication number | Publication date |
---|---|
CN103543509B (en) | 2015-12-23 |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN102521398B (en) | Modeling method for substation-dispatching center two-level distributed type power grid | |
CN105373655B (en) | A kind of method of one electrical secondary system connection figure of organic association Intelligent transformer station | |
CN103675600B (en) | Based on the Fault Diagnosis of Distribution Network system and method for topological knowledge | |
CN101272051B (en) | Information system integration method of electric network production control region and management information region | |
CN104123271B (en) | Intelligent substation secondary design system based on Excel | |
CN103066698B (en) | Implement method for automatic generation of visible power grid trend chart in dispatching system | |
CN106021684B (en) | A kind of modular power source standardized designs system and its design method, application | |
CN105576660B (en) | Local distribution network in-circuit emulation analytical equipment and system | |
CN106228338B (en) | A kind of distribution engineering intelligentized design integrated service system and application method | |
CN104361184B (en) | A kind of electric power network automatic placement and routing system and method | |
CN108153996B (en) | Method for realizing electric wiring group cabinet by COMOS platform | |
CN104504485A (en) | Integrative power system relay protection setting calculation method | |
CN102957205A (en) | Method and system for establishing distribution network model | |
CN103715767A (en) | Smart power grid information integration and display platform | |
CN103730894B (en) | EMS image checking mehtod and device | |
CN104951620A (en) | Business rule based method for auditing SCD (substation configuration description) files of smart substation | |
CN107565693A (en) | The visualization system and method for visualizing of the optical fiber circuit of intelligent substation | |
CN108054719A (en) | Intelligent substation networking secondary circuit modeling method and method for diagnosing faults | |
CN103632307A (en) | Method for checking consistency between SCD and virtual loop table of intelligent substation | |
CN105976262A (en) | Power plant granularity based power grid model version sharing method | |
CN105574291A (en) | Automatic power supply loop configuration method and system | |
CN105426623B (en) | The method that schematic diagram based on substation automatically generates terminal figure | |
CN104578049B (en) | A kind of transient power quality analysis system of electromechanical electromagnetic transient hybrid simulation | |
CN103488726A (en) | Method for establishing unified grid data platform based on WEB-SERVICE | |
CN105045991A (en) | Auditing method for intelligent apparatus configuration scheme and virtual terminals of intelligent substation |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
C06 | Publication | ||
PB01 | Publication | ||
SE01 | Entry into force of request for substantive examination | ||
SE01 | Entry into force of request for substantive examination | ||
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
C56 | Change in the name or address of the patentee | ||
CP01 | Change in the name or title of a patent holder |
Address after: 510080 Dongfeng East Road, Dongfeng, Guangdong, Guangzhou, Zhejiang Province, No. 8 Patentee after: ELECTRIC POWER RESEARCH INSTITUTE, GUANGDONG POWER GRID CO., LTD. Address before: 510080 Dongfeng East Road, Dongfeng, Guangdong, Guangzhou, Zhejiang Province, No. 8 Patentee before: Electrical Power Research Institute of Guangdong Power Grid Corporation |