CN209842724U - Intelligent substation and management system thereof - Google Patents

Abstract

The utility model provides an intelligent transformer substation and a management system thereof, which comprises a plurality of transformer areas, wherein each transformer area is provided with a plurality of transformer cabinets, and each safety cabinet is provided with an electromagnetic lock, an electromagnetic lock controller and a first safety verification module; the power transformation system comprises a management center, each power transformation area is provided with one cruise robot, and the management center is in communication connection with the cruise robots; the cruise robot is provided with a safety control device; the safety control device comprises a safety controller, the safety controller is connected with a second safety verification module and input equipment, and the safety controller is in wireless communication connection with an electromagnetic lock controller of the power transformation cabinet in the corresponding area. When the safety verification device on the transformer cabinet is abnormal, the transformer cabinet can be unlocked through the cruise robot, so that the problem that the unlocking reliability is reduced when the transformer cabinet in the transformer station adopts a coded lock or a fingerprint lock in the prior art is solved.

Description

Intelligent substation and management system thereof

Technical Field

The utility model belongs to the technical field of intelligent substation, concretely relates to intelligent substation and management system thereof.

Background

With the development of science and technology, electricity plays an irreplaceable role as an indispensable energy source in daily life and work of people. The intelligent substation is a very important facility in the power system, and the safety and the reliability of the intelligent substation are the prerequisites for the safe and stable operation of the whole power system.

Be provided with a plurality of transformer cabinets in the intelligent substation, in order to guarantee the security of transformer cabinet, be provided with the lock on the transformer cabinet usually in order to its locking, prevent that external personnel from opening and operate it to for the security performance of further assurance transformer cabinet, a lot of transformer cabinets set up trick lock, fingerprint lock.

Although the security that trick lock and fingerprint lock can make the transformer cabinet is higher, in case trick lock or fingerprint lock appear unusually will lead to the transformer cabinet and can not unblank, cause the problem that transformer cabinet unblanked reliability and reduce.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an intelligent substation management system to solve the problem of reduced unlocking reliability caused by the adoption of a coded lock or a fingerprint lock in a substation in the prior art; and simultaneously, in order to solve the technical problem the utility model also provides an intelligent substation.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

an intelligent substation comprises a plurality of power transformation areas, wherein each power transformation area is provided with a plurality of power transformation cabinets, and each safety cabinet is provided with an electromagnetic lock, an electromagnetic lock controller and a first safety verification module; the power transformation system comprises a management center, each power transformation area is provided with one cruise robot, and the management center is in communication connection with the cruise robots; the cruise robot is provided with a safety control device; the safety control device comprises a safety controller, the safety controller is connected with a second safety verification module and input equipment, and the safety controller is in wireless communication connection with an electromagnetic lock controller of the power transformation cabinet in the corresponding area.

Further, the first security verification module and/or the second security verification module is/are a coded lock/fingerprint collector.

Further, the cruise robot is further provided with a camera, and the safety controller is connected with the camera.

Furthermore, the cruise robot is also provided with an alarm module, and the safety controller is connected with the alarm module.

Further, the input device is a keyboard or a touch screen.

A management system of an intelligent substation comprises a management center, wherein each power transformation area is provided with a cruise robot, and the management center is in communication connection with the cruise robots; the cruise robot is provided with a safety control device; the safety control device comprises a safety controller, the safety controller is connected with a second safety verification module and input equipment, and the safety controller is provided with a wireless communication module which is used for being in wireless communication connection with an electromagnetic lock controller of a power transformation cabinet in a corresponding area.

Further, the second security verification module is a coded lock/fingerprint collector.

Further, the cruise robot is further provided with a camera, and the safety controller is connected with the camera.

Furthermore, the cruise robot is also provided with an alarm module, and the safety controller is connected with the alarm module.

Further, the input device is a keyboard or a touch screen.

The utility model has the advantages that: the cruise robots are respectively arranged in each region of the transformer substation, each cruise robot is provided with a safety verification device and is in communication connection with an electromagnetic lock controller of a transformer cabinet in the region, and the transformer cabinet can be unlocked through the cruise robots when the safety verification devices on the transformer cabinet are abnormal, so that the unlocking reliability of the transformer cabinet is improved, and the problem that the unlocking reliability is reduced when the transformer cabinet in the transformer substation adopts a coded lock or a fingerprint lock in the prior art is solved.

Drawings

Fig. 1 is a schematic diagram of a substation in an embodiment of the present invention;

fig. 2 is a schematic diagram of an electromagnetic lock control device in an embodiment of the utility model;

fig. 3 is a schematic diagram of a management system in an embodiment of the substation of the present invention;

fig. 4 is a schematic structural diagram of a safety control device in an embodiment of the utility model.

Detailed Description

The embodiment of the transformer substation is as follows:

the embodiment provides an intelligent substation for cause the problem that the reliability reduces of unblanking when solving prior art transformer substation transformer cabinet and adopting trick lock or fingerprint lock.

As shown in fig. 1, the intelligent substation provided in this embodiment is divided into m power transformation areas, n power transformation cabinets are provided in each area, and m and n are integers greater than 1.

Each transformer cabinet is provided with an electromagnetic lock and an electromagnetic lock control device, and as shown in fig. 2, the electromagnetic lock control device comprises an electromagnetic lock controller which is connected with the electromagnetic lock and drives the electromagnetic lock to operate. The electromagnetic lock controller in this embodiment is a 51-series single chip microcomputer, and the connection mode and the control mode between the electromagnetic lock controller and the electromagnetic lock are the same as those in the prior art, and this embodiment is not described in more detail.

The electromagnetic lock controller is further connected with a first fingerprint acquisition module and a first wireless communication module, the first fingerprint acquisition module is used for acquiring fingerprints of workers, the electromagnetic lock is controlled to be opened when the fingerprints are matched, and the electromagnetic lock is not opened when the fingerprints are not matched, so that the safety of the power distribution cabinet is ensured.

The management system of intelligent substation is as shown in fig. 3, including management center and m robot that cruises, the management center includes the host computer, and the host computer is connected with total WIFI communication module, and each robot that cruises sets up respectively in each distribution area.

The cruise robot is provided with safety control device, safety control device's structure is shown in fig. 4, including the safety controller, sub-WIFI communication module, second fingerprint collector and keyboard, safety controller and fingerprint collector, sub-WIFI communication module, keyboard and n second wireless communication module, what the safety controller adopted is the singlechip of ARM series, wireless communication is connected between sub-WIFI communication module and the total WIFI communication module of host computer, each second wireless communication module is respectively in the communication connection between the first wireless communication module that corresponds the regional distribution cabinet of transformer and go up the electromagnetic lock controller and connect, thereby realize each cruise robot and management center, correspond the information interaction of regional interior switch board. In this embodiment, the first fingerprint acquisition device and the second fingerprint acquisition device both adopt fingerprint acquisition devices of model uru4000 b.

The intelligent substation that this embodiment provided, its theory of operation is:

when the first fingerprint collector of each power distribution cabinet can work normally, a worker verifies identity information through a fingerprint lock on the power distribution cabinet to unlock the power distribution cabinet;

when a first fingerprint collector of the power distribution cabinet is abnormal, the worker verifies the identity information through a second fingerprint collector of the cruise robot and inputs the serial number of the power distribution cabinet to be opened through a keyboard; when the identity authentication passes, the safety controller sends an instruction to the corresponding power distribution cabinet through the corresponding second wireless communication module; and when the electromagnetic lock controller of the corresponding power distribution cabinet receives the instruction, the electromagnetic lock is controlled to be opened, so that the unlocking reliability of each power distribution cabinet is ensured.

In this embodiment, the first wireless communication module and the second wireless communication module both use RF radio frequency modules, and as other embodiments, a ZigBee-based wireless communication module may also be used.

In order to monitor each power transformation area of the transformer substation, each cruise robot in the embodiment is further provided with a camera, and the safety controller is connected with the camera, so that video monitoring of each power transformation area is realized.

In order to remind the workers in the station in time when the non-workers verify, each cruise robot is further provided with an alarm module in the embodiment, and the safety controller is connected with the alarm module and sends out an alarm signal in time when the identity verification fails. The alarm module in the embodiment adopts BBJ + series explosion-proof audible and visual alarms.

In this embodiment, the input device of the security control apparatus is a keyboard, and as another embodiment, a touch screen may be used as the input device.

In this embodiment, the security verification modules connected to the security controller and the electromagnetic lock controller are both fingerprint collectors, and as other embodiments, the security verification modules may adopt a combination lock, or one of the security verification modules adopts a combination lock, and the other security verification module adopts a fingerprint collector.

The embodiment of the management system comprises:

the present embodiment provides an intelligent substation management system, which is the same as the management system in the substation embodiment described above, and the detailed description of the management system has been already provided in the substation embodiment described above, and not much description is provided in the embodiment.

Claims (10)

1. An intelligent substation comprises a plurality of power transformation areas, wherein each power transformation area is provided with a plurality of power transformation cabinets, and each safety cabinet is provided with an electromagnetic lock, an electromagnetic lock controller and a first safety verification module; the power transformation system is characterized by further comprising a management system, wherein the management system comprises a management center, each power transformation area is provided with one cruise robot, and the management center is in communication connection with the cruise robots; the cruise robot is provided with a safety control device; the safety control device comprises a safety controller, the safety controller is connected with a second safety verification module and input equipment, and the safety controller is in wireless communication connection with an electromagnetic lock controller of the power transformation cabinet in the corresponding area.

2. The intelligent substation of claim 1, wherein the first security verification module and/or the second security verification module is a combination lock/fingerprint collector.

3. The intelligent substation of claim 1, wherein the cruise robot is further provided with a camera, and the safety controller is connected with the camera.

4. The intelligent substation of claim 1, wherein the cruise robot is further provided with an alarm module, and the safety controller is connected with the alarm module.

5. The intelligent substation of claim 1, wherein the input device is a keyboard or a touch screen.

6. The management system of the intelligent substation is characterized by comprising a management center, wherein each power transformation area is provided with a cruise robot, and the management center is in communication connection with the cruise robots; the cruise robot is provided with a safety control device; the safety control device comprises a safety controller, the safety controller is connected with a second safety verification module and input equipment, and the safety controller is provided with a wireless communication module which is used for being in wireless communication connection with an electromagnetic lock controller of a power transformation cabinet in a corresponding area.

7. The management system of the intelligent substation of claim 6, wherein the second security verification module is a combination lock/fingerprint collector.

8. The management system of the intelligent substation of claim 6, wherein the cruise robot is further provided with a camera, and the safety controller is connected with the camera.

9. The management system of the intelligent substation of claim 6, wherein the cruise robot is further provided with an alarm module, and the safety controller is connected with the alarm module.

10. The management system of an intelligent substation of claim 6, wherein the input device is a keyboard or a touch screen.