JP7141818B2 - cubicle management system - Google Patents

Description

The present invention relates to a cubicle management system that enables smooth maintenance and inspection of cubicles housing high-voltage power receiving equipment.

There is a system in which data on received power in a cubicle containing high-voltage power receiving equipment is stored in a cloud server so that relevant parties can obtain the data as needed (see, for example, Patent Document 1). By accumulating and managing the cubicle data on the cloud server in this way, the people involved could obtain cubicle information by accessing the cloud server from anywhere as needed.

On the other hand, cubicles are obligated to undergo regular inspections to prevent power outages due to failures and electrical leakage due to deterioration of insulation. The operation of the high voltage breaker, etc. is checked. Since these measurement data can be used as a basis for determining when to replace the power receiving equipment in the future, a ledger was created and stored by the security manager responsible for maintenance and inspection.

JP 2017-103866 A

As mentioned above, the data of periodic inspections performed on cubicles was recorded and saved for reference in future maintenance. In some cases, past inspections were not utilized.
In addition, even if sufficient past data remains, the timing of replacement of used equipment is not uniformly determined for each equipment, and it largely depends on the judgment of the security manager, etc. In some cases, failures and malfunctions occurred as the problem progressed.
Against this background, if inspection data can be collectively managed without relying on the judgment of a specific person such as a security manager, past data can be easily handed over even if the security manager changes. In addition, if information for judgment such as replacement timing can be stored and provided, the security manager can make an objective judgment and stable management of the cubicle becomes possible.

Therefore, in view of such problems, the present invention aims to provide a cubicle management system that enables management of inspection information for a plurality of cubicles by a cloud server on a network, and that can be used for future maintenance and inspection. purpose.

In order to solve the above problems, the invention of claim 1 is arranged on a communication network and stores management information of a plurality of cubicles accommodating high-voltage power receiving equipment; a cloud server;
a terminal device for accessing the cloud server via the communication network, browsing the accumulated management information of the cubicles, and accumulating information in the cloud server;
The cloud server includes an inspection data storage unit in which test results and regular inspection data of the individual cubicles are input by a security manager and stored as one of the management information;
a salt damage level setting map storage unit in which the salt damage level is set for each region;
a solid information storage unit in which solid information including the manufacturer, model, and transformer oil amount of facilities and equipment housed in the cubicle as the management information is input by the cubicle maker and stored;
a member information storage unit in which information on spare parts and substitute parts for facilities and equipment used in the cubicle is input by the cubicle maker or the equipment maker and stored ;
The terminal device can input the test results and periodic inspection data of power receiving and distribution equipment and equipment including the specific cubicle into the cloud server, and the management information of the unspecified cubicle stored in the cloud server; The solid information storage unit and the member information storage unit can be browsed ,
The salt damage level of the cubicle can be obtained by notifying the location information of the cubicle from the terminal device.
According to this configuration, the security manager transmits the maintenance and inspection data of the cubicle to the cloud server via the terminal device and stores it, while the past data of the cubicle managed from the cloud server and the data of other cubicles can be easily obtained, and can be used to set future maintenance and equipment replacement timings. In addition, since the cloud server holds the inspection data, even if the security manager changes, the inspection data can be easily handed over, and there is no fear of losing the past data.
In addition, since the security manager can grasp the level of salt damage in the area where the cubicle to be maintained and inspected is installed, it is easy to make a future salt damage countermeasure schedule.

Furthermore, if you access the cloud server from the terminal device, you can obtain information such as the manufacturer, model, transformer oil amount, and spare parts information for the equipment and equipment used in the cubicle. You don't have to spend time looking for it. Also, there is no need to risk entering a cubicle and directly confirming the manufacturer name and model.

According to the second aspect of the invention, in the configuration of the first aspect, the cloud server includes deterioration judgment reference information for judging the deterioration level of the equipment stored in the cubicle as the management information and the deterioration state by the appearance. It has a degradation information storage unit that accumulates image information for judgment, and the degradation information storage unit has a message storage unit that stores subjective information of the contributor for each stored image. It is characterized in that images and messages can be posted, and that any posted image information and comments can be viewed when the deterioration information storage unit is viewed from the terminal device.
According to this configuration, the security manager can objectively judge the deterioration level of the cubicle that he/she is maintaining and inspecting from the appearance by referring to the information in the deterioration information storage unit, and can determine the timing of equipment replacement. easy to judge.

The invention according to claim 3 , in the configuration according to claim 1 or 2 , has a monitoring device installed in the cubicle that collects power usage data supplied from the cubicle to the load of the consumer and notifies it to the outside, The cloud server is provided with a power data storage unit for accumulating power usage data notified from the monitoring device, and the power data storage unit can be browsed from the terminal device.
According to this configuration, in addition to cubicle inspection data, power consumption data supplied from the cubicle to the load is accumulated in the cloud server, and the accumulated power data can be browsed from the terminal device, so that the security manager can maintain the cubicle. In addition to inspection, power management for power consumers can be performed using the terminal device, and there is no need to construct a separate system for managing the power consumption of the cubicle.

According to the invention of claim 4 , in the configuration of claim 3 , the monitoring device performs demand control of the power supplied by the cubicle, and the cloud server controls the demand control including the target demand value monitored by the monitoring device. The monitoring device has a set value storage unit that stores the set values for the demand control, and a notification destination storage unit that stores the terminal device that notifies the content of the demand control. not exceed the target demand value, and notifies the cloud server of the control content, and the cloud server notifies the control content notified from the monitoring device to a predetermined terminal device. .
According to this configuration, the set values and the like of the cubicles to be demand-controlled are monitored by the cloud server, and the control content is notified to the terminal device associated with each monitoring device. It can be collectively managed and is easy to manage.

According to the invention of claim 5 , in the configuration of claim 3 , the monitoring device performs demand management of the power supplied by the cubicle, and the cloud server performs demand management including the target demand value monitored by the monitoring device. and a notification destination storage unit for storing a terminal device for notifying the content of demand management. The monitoring device reads the target demand value from the cloud server and performs demand management. If it is determined that the power consumption exceeds the target demand value, the cloud server is notified, and the cloud server notifies a predetermined terminal device of the demand management notification received from the monitoring device.
According to this configuration, the cloud server can manage the set values and the like of the cubicles subject to demand management. Easy power management.

According to the present invention, the security manager transmits the cubicle maintenance and inspection data to the cloud server via the terminal device and saves it, while the past data of the cubicle and the data of other cubicles managed from the cloud server. can be easily obtained, and can be used to set future maintenance and equipment replacement timings. In addition, since the cloud server holds the inspection data, even if the security manager changes, the inspection data can be easily handed over, and there is no fear of losing the past data.

1 is a configuration diagram showing an example of a cubicle management system according to the present invention; FIG. It is a block diagram of a monitoring device. 1 is a block diagram of a cloud server; FIG.

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, embodiments embodying the present invention will be described in detail with reference to the drawings. FIG. 1 is a block diagram showing an example of a cubicle management system according to the present invention. 1 is a cubicle containing high-voltage power receiving equipment, 2 is installed in the cubicle 1, and power is supplied from the cubicle 1 to the load of a consumer (not shown). 3 is a cloud server that is placed on the communication network N and stores management information of the cubicle 1; It is a terminal device for browsing, setting for maintenance and inspection of the cubicle 1 by a security manager, and inputting information by an electrical equipment design company, a cubicle maker, an equipment maker, and the like.
The monitoring device 2 and the terminal device 4 communicate with the cloud server 3 via the Internet network constructed by the communication network N. FIG.

FIG. 2 shows a block diagram of the monitoring device 2. As shown in FIG. As shown in FIG. 2, the monitoring device 2 communicates with a smart meter (not shown) that measures the power (used power) supplied to the load after the high voltage received power is converted into power (used power) in the cubicle 1. A smart meter communication IF 21, a voltage signal input unit 22 for inputting a voltage signal from an electric circuit (not shown) installed in a high voltage or low voltage circuit, and a current signal from a current transformer (not shown) installed in a high voltage or low voltage circuit. A current signal input unit 23, a display unit 24 for displaying measured values, etc., a storage unit 25 for storing obtained data, a monitoring device CPU 26 for performing predetermined calculations such as calculation of power consumption and controlling the monitoring device 2, Cloud An external communication IF 27 and the like for communicating with the server 3 are provided.
The monitoring device 2 has a function of performing demand control to reduce or cut off the power supplied to a specific load when it is assumed that the power consumption exceeds a preset power value (target demand value). A target demand value, which is a reference for control at this time, is registered in the cloud server 3, and control is performed by obtaining this value.

FIG. 3 shows a block diagram of the cloud server 3. As shown in FIG. As shown in FIG. 3, the cloud server 3 includes, as cubicle management information, an inspection data storage unit 31 that stores periodic inspection data and the like, a power data storage unit 32 that stores power usage data and the like, manufacturers and model numbers of facilities and equipment, , an individual information storage unit 33 for storing rating information, etc., a member information storage unit 34 for storing spare parts and substitute parts information for equipment/equipment, deterioration judgment reference information regarding power receiving/distribution equipment/equipment including the deteriorated cubicle 1, and these Deterioration information storage unit 35 for storing image information related to, salt damage level setting map storage unit 36 for storing information classified by region for salt damage level, setting value storage unit 37 for storing setting values such as target demand value, demand control It includes a notification destination storage unit 38 that stores notification destinations such as contents, a cloud server CPU 39 that controls the cloud server 3, a communication IF 40 that communicates with the monitoring device 2 and the terminal device 4, and the like.

The terminal device 4 has a display unit, an operation unit, a communication unit, and the like, and can be a PC (personal computer), for example, or may be a tablet terminal that is easy to carry. This terminal device 4 is owned by a security manager who manages the cubicle 1, an electric power consumer who installs the cubicle 1 who wants to provide information to the cloud server 3 or wants to browse, a cubicle maker, an equipment maker, etc., and is owned by the cloud server. 3 can be communicated with.

Here, the individual storage units of the cloud server 3 will be further described. The inspection data storage unit 31 stores regular inspection data such as test result data such as completion inspections, monthly inspection data, and annual inspection data. ing. These data are input from the terminal device 4 by the security manager who has actually inspected the cubicle 1 .
The cloud server 3 manages a plurality of cubicles 1, 1, . ing. Therefore, the data in the cubicle 1 that is not associated with an ID or the like can only be browsed, except for information that can identify a company name, etc., and cannot be input or changed.

The power data storage unit 32 stores power usage data, low/high voltage data, low/high current data, and power amount data for a predetermined time calculated by the monitoring device 2 periodically sent from the monitoring device 2. etc. are accumulated. These power-related data are browsed from the terminal device 4 by the consumer, security manager, and electrical equipment design company where the cubicle 1 is installed and used, in order to manage power usage.

The individual information storage unit 33 stores information on the manufacturer, model, and rating of main equipment such as transformers and capacitors housed in the cubicle 1, as well as individual information such as information on the amount of oil in the transformer. These information are input by accessing the cloud server 3 from the terminal device 4 by the cubicle maker side when the cubicle 1 is shipped from the factory. Depending on the device, the information is input by the manufacturer of the device.

The member information storage unit 34 stores information on the makers and product numbers of switches, power fuses, insulators, etc. assembled to the cubicle 1, spare parts, and substitute parts for replacement. These pieces of information are also created and input by the cubicle maker when the cubicle 1 is shipped from the factory, or are created when the device maker first registers in the cloud server 3, or when the device specifications are changed. is entered.

The deterioration information storage unit 35 stores deterioration judgment reference information for judging the deterioration level of various members constituting the power receiving and distributing equipment including the cubicle 1 and image data related thereto, and also stores messages from contributors. It is configured to have a message recording unit (not shown). Image data and messages are composed mainly of images and messages posted from the terminal device 4 by the security manager who maintains and inspects the individual cubicles 1 managed by the cloud server 3, and are images posted by the security manager. Along with this, comments such as usage age information and characteristic data information of the cubicles and equipment to be photographed, as well as subjective information on deterioration levels, etc., are posted together. The image information and message information are classified and stored according to the type of equipment, and are classified and stored so that the information desired by the security manager can be easily obtained.
The deterioration criterion information is, for example, furfural method information stored in the deterioration information storage unit 35 as information for judging the deterioration level of the insulating oil of the transformer. Data indicating the relationship between is stored.

The salt damage level setting map storage unit 36 stores a salt damage level associated with a location (address). For example, all of Japan is stored as belonging to one of five levels. Therefore, by inputting the address where the cubicle 1 is installed from the terminal device 4, it is possible to obtain information on the level of salt damage set in that area. It can be used to estimate the deterioration speed due to salt damage.

In this way, the security manager transmits the maintenance and inspection data of the cubicle 1 to the cloud server 3 via the terminal device 4 and stores it, while the past data of the cubicle 1 managed from the cloud server 3 and other data are stored. The data of the cubicle 1 can be easily obtained, and can be used for setting future maintenance and equipment replacement timing. In addition, since the cloud server 3 holds the inspection data, even if the security manager changes, the inspection data can be easily handed over, and there is no fear of losing the past data.
In addition, by accessing the cloud server 3 from the terminal device 4, it is possible to obtain information such as the manufacturer, model, transformer oil amount, and spare parts information for the equipment and equipment used in the cubicle. You don't have to spend time looking for parts or parts. Also, there is no need to risk entering the cubicle 1 and directly confirming the manufacturer's name and model.
Furthermore, the security manager can objectively judge the deterioration level of the cubicle 1 that he/she is maintaining and inspecting by referring to the information in the deterioration information storage unit 35 from the appearance, and judge the timing of equipment replacement. In addition, since the level of salt damage in the area where the cubicle 1 to be maintained and inspected by the user is installed can be grasped from the cloud server 3, it is easy to make a future salt damage countermeasure schedule.
In addition to the inspection data of the cubicle 1, the power consumption data supplied from the cubicle 1 to the load is accumulated in the cloud server 3, and the accumulated power data can be browsed from the terminal device 4. In addition to the maintenance and inspection, power management of the power consumer can be performed using the terminal device, and there is no need to construct a separate system for managing the power consumption of the cubicle 1 .
In addition, since the cloud server 3 monitors the set values and the like of the cubicles 1 to be demand-controlled, and the control contents are notified to the terminal devices 4 associated with the individual monitoring devices 2, demand control of the plurality of cubicles 1 is possible. can be collectively managed and is easy to manage.

In the above-described embodiment, the monitoring device 2 performs demand control, but does not perform any control, only demand monitoring that notifies a predetermined notification destination when the power consumption is about to exceed the target demand value. can be implemented, and the cloud server 3 can manage the set values of the cubicles 1 that are subject to demand management. Power management is easy because it is notified.

Reference Signs List 1 cubicle 2 monitoring device 3 cloud server 4 terminal device 31 inspection data storage unit 32 power data storage unit 33 individual information storage unit 34 Member information storage unit 35 Deterioration information storage unit 36 Salt damage level setting map storage unit Cloud server CPU N Communication network.

Claims (5)

a cloud server arranged on a communication network and storing management information of a plurality of cubicles housing high-voltage power receiving equipment;
a terminal device for accessing the cloud server via the communication network, browsing the accumulated management information of the cubicles, and accumulating information in the cloud server;
The cloud server includes an inspection data storage unit in which test results and regular inspection data of the individual cubicles are input by a security manager and stored as one of the management information;
a salt damage level setting map storage unit in which the salt damage level is set for each region;
a solid information storage unit in which solid information including the manufacturer, model, and transformer oil amount of facilities and equipment housed in the cubicle as the management information is input by the cubicle maker and stored;
a member information storage unit in which information on spare parts and substitute parts for facilities and equipment used in the cubicle is input by the cubicle maker or the equipment maker and stored ;
The terminal device can input the test results and periodic inspection data of power receiving and distribution equipment and equipment including the specific cubicle into the cloud server, and the management information of the unspecified cubicle stored in the cloud server; The solid information storage unit and the member information storage unit can be browsed ,
A cubicle management system, wherein a salt damage level of a cubicle can be obtained by notifying location information of the cubicle from the terminal device. The cloud server stores, as the management information, deterioration judgment reference information for judging the deterioration level of the equipment housed in the cubicle and image information for judging the deterioration state by appearance. has
The degradation information storage unit has a message recording unit that stores subjective information of a contributor for each stored image, and the image and message can be posted from the terminal device,
2. The cubicle management system according to claim 1 , wherein any posted image information and comments can be viewed when the degradation information storage unit is viewed from the terminal device. While having a monitoring device installed in the cubicle that collects power consumption data supplied from the cubicle to the consumer's load and notifies it to the outside,
The cloud server is provided with a power data storage unit for accumulating power usage data notified from the monitoring device,
3. The cubicle management system according to claim 1, wherein the power data storage section can be browsed from the terminal device. The monitoring device performs demand control of the power supplied by the cubicle, while the cloud server includes a set value storage unit that stores set values for demand control including a target demand value monitored by the monitoring device; Having a notification destination storage unit that stores the terminal device that notifies the content of the demand control,
The monitoring device reads the target demand value from the cloud server, performs demand control so that the power supplied by the cubicle does not exceed the target demand value, and notifies the cloud server of control details,
4. The cubicle management system according to claim 3 , wherein the cloud server notifies the predetermined terminal device of the control content notified from the monitoring device. The monitoring device performs demand management of the power supplied by the cubicle, while the cloud server includes a set value storage unit that stores set values for demand management including a target demand value monitored by the monitoring device; Having a notification destination storage unit that stores the terminal device that notifies the content of the demand management,
The monitoring device performs demand management by reading the target demand value from the cloud server, and notifies the cloud server when it is determined that the power consumption exceeds the target demand value,
4. The cubicle management system according to claim 3 , wherein the cloud server notifies the predetermined terminal device of the demand management notification received from the monitoring device.

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