JP2007018096A - Electric facility maintenance/management system through network - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an electric facility maintenance/management system through a network for flexibly controlling an electric facility according to information relating to the maintenance of the electric facility acquired from a customer side, and for executing the maintenance/management of the electric facility according to the request of a customer. <P>SOLUTION: This electric facility maintenance/management system 1 for maintaining and managing an electric facility 6 installed at a customer 3 side from a remote place includes: a maintenance information acquisition means 21 for acquiring the monitor circumstances of the electric facility 6 installed at the customer 3 side and the monitor information of an energy value; a database 200 for storing and managing the acquired monitor circumstances of the electric facility 6 and the acquired monitor information of the energy value as the maintenance information of each customer 3; and a maintenance information providing means 22 for providing the maintenance information stored in the database 200. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to an electrical equipment maintenance management system via a network for maintaining and managing electrical equipment installed on a customer side from a remote location.

  In general, in the maintenance and inspection of the customer's electrical equipment, for example, a report such as an inspection report describing the result of the maintenance and inspection is given to the customer. In such an inspection report, since the amount of information that can be provided is small and the past inspection history is not shown, it is difficult to efficiently use the inspection results.

  In addition, since there are no special rules for setting the inspection date for carrying out maintenance inspections, it is difficult for the person in charge of the inspection to properly manage the schedule, and the convenience of the customer can be fully considered. It wasn't.

  From the situation described above, the side that conducts maintenance and inspection of electrical equipment lacks communication with customers, cannot send information and respond to customer requests in a timely manner, and customer needs There was a situation that could not be fully captured.

  Therefore, conventionally, as a technique related to equipment maintenance and inspection, for example, a system for performing maintenance and inspection of elevator equipment using the Internet has been proposed (Patent Document 1).

  However, in the technique according to Patent Document 1, since the equipment to be subjected to maintenance inspection is fixed to the elevator, it is difficult to apply it to flexible maintenance management for all electrical equipment installed on the customer side. is there.

JP 2003-104640 A

  In view of such circumstances, the present invention can flexibly control electrical equipment according to information on maintenance of electrical equipment acquired from the customer side, and perform maintenance management of electrical equipment according to customer demands. It is an object of the present invention to provide an electrical equipment maintenance management system through a network that can perform the above.

  A first aspect of the present invention that solves the above problem is an electrical equipment maintenance management system for maintaining and managing electrical equipment installed on a customer side from a remote location, wherein the electrical equipment installed on the customer side Maintenance information acquisition means for acquiring equipment monitoring status and power amount monitoring information, a database for storing and managing the acquired electrical equipment monitoring status and power amount monitoring information as maintenance information for each customer, and the database And a maintenance information providing means for providing maintenance information stored in the electrical equipment maintenance management system via a network.

  In the first aspect, monitoring information on the electrical equipment installed on the customer side and monitoring information on the amount of electric power are acquired, and the information is stored and provided as maintenance information for each customer in the database. As a result, monitoring information related to the customer's electrical equipment can be collectively managed on the database as maintenance information for each customer, and information related to maintenance management of the electrical equipment can be flexibly transmitted.

  According to a second aspect of the present invention, in the first aspect, the database is updated as needed based on the acquired monitoring status of the electrical equipment and the monitoring information of the electric energy, and the electrical equipment via the network It is in the maintenance management system.

  In the second aspect, the database is updated as needed based on the acquired monitoring status of the electrical equipment and the monitoring information of the electric energy. Accordingly, since the latest maintenance information can be managed on the database, for example, it is possible to take a flexible response at any time according to the state of the electrical equipment on the customer side.

  According to a third aspect of the present invention, in the first or second aspect, further comprising demand power control means for controlling demand power based on maintenance information managed in the database. In the electrical equipment maintenance management system.

  In the third aspect, the power demand is controlled based on the maintenance information managed in the database. Thereby, for example, management of maximum demand power (management of demand value) can be performed, and it becomes possible to lead to energy saving measures for each customer.

  According to a fourth aspect of the present invention, in the third aspect, in the database, a priority order related to a control procedure of electrical equipment for each customer is set and managed in advance, and the demand power control means is set. It is an electrical equipment maintenance management system via a network characterized by controlling the power demand of the electrical equipment based on the priorities.

  In the fourth aspect, the power demand of the electrical equipment is controlled based on the set priority order. Thereby, an electrical installation can be controlled efficiently and more flexible control is attained.

  According to a fifth aspect of the present invention, in any one of the first to fourth aspects, the monitoring status of the electrical equipment and the monitoring information of the electric energy acquired by the monitoring information acquisition means are installed on the customer side. It is in an electrical equipment maintenance management system via a network characterized by being measured by a monitoring device that monitors the status of the equipment and the amount of power.

  In the fifth aspect, the monitoring status of the electrical equipment and the monitoring information of the electric energy measured by the monitoring device are acquired.

  According to a sixth aspect of the present invention, in the fifth aspect, the monitoring device includes an insulation monitoring unit that monitors a leakage state as a state of the electrical facility, and a power amount monitoring unit that monitors a power amount related to the electrical facility. It is in the electrical equipment maintenance management system via the network characterized by doing.

  In the sixth aspect, the leakage state of the electrical equipment is monitored and the amount of power is monitored. Thereby, since the situation of both the leakage state of electric equipment and the amount of electric power can be considered, it becomes possible to perform more flexible control.

  According to a seventh aspect of the present invention, there is provided the network according to the sixth aspect, wherein the insulation monitoring unit issues an alarm to a customer when a leakage current becomes a predetermined current value or more. It is in the electrical equipment maintenance management system.

  In the seventh aspect, an alarm is transmitted to the customer when the leakage current reaches a predetermined current value. Accordingly, for example, the leakage state can be grasped on the customer side without going through the management side such as a maintenance center, so that more flexible control can be performed.

  According to an eighth aspect of the present invention, in any one of the first to seventh aspects, the maintenance information acquisition unit has a function of receiving a request from a customer or a reservation date for an inspection date of an electrical facility and managing the schedule. The maintenance information providing means is in an electrical equipment maintenance management system via a network, which has a function of providing a proposal for a request from a customer.

  In the eighth aspect, a request item from a customer or a reservation for an inspection date of an electrical facility is received and the schedule is managed, and a proposal item for the request item from the customer is provided. Thereby, since communication can be performed flexibly between the customer side and the management side, it becomes possible to perform maintenance management according to the customer's request.

  According to the present invention, since information related to maintenance management of electrical equipment is collectively managed in a database, it becomes possible to handle the information flexibly, and therefore, according to information on maintenance of electrical equipment acquired from the customer side Therefore, it is possible to provide an electrical equipment maintenance management system via a network that can flexibly control electrical equipment and can perform maintenance management of electrical equipment according to customer requirements.

  The best mode for carrying out the present invention will be described below with reference to the drawings. The description of the present embodiment is an exemplification, and the configuration of the present invention is not limited to the following description.

  In this embodiment, for example, in maintenance management of a customer's electrical equipment, a maintenance center that performs maintenance and inspection of the electrical equipment responds to information about maintenance of electrical equipment acquired from the customer side via a network from a remote location. The present invention realizes a system that can flexibly control electrical facilities and can maintain and manage electrical facilities according to customer requirements. As a result, maintenance management for a plurality of customers can be performed in a timely manner.

  FIG. 1 is a diagram showing a schematic configuration of an electrical equipment maintenance management system according to an embodiment of the present invention. In the present embodiment, a company is assumed as a customer, and the case of maintaining and managing electrical equipment installed in a factory or the like owned by the company is illustrated.

  As shown in the figure, in the electrical equipment maintenance management system 1 of the present embodiment, a maintenance center 2 that collectively handles maintenance management related to the electrical equipment 6 of a plurality of customers 3 and an electrical equipment 6 that is the object of maintenance management are installed. A plurality of customers 3 (customer A and customer B in this embodiment) are connected via the network 10, and maintenance management for the electrical equipment 6 for each customer 3 is performed.

  Specifically, the maintenance center 2 is provided with a maintenance server 20 for managing information related to the electrical equipment 6 of the customer 3. On the other hand, on the customer 3 side, the terminal 4 for browsing various information managed by the maintenance server 20, the monitoring device 5 for monitoring the state related to the electrical equipment 6, and the electrical equipment to be subject to maintenance management 6 is installed, and the electrical equipment 6 is connected to the terminal 4 via the monitoring device 5, whereby monitoring information relating to the electrical equipment 6 is acquired at the maintenance center 2 via the monitoring device 5 or the terminal 4. . Then, when the customer 3 accesses the maintenance server 20, various information related to maintenance management is browsed from the terminal 4 as necessary. With this configuration, various types of information related to maintenance management are communicated between the maintenance center 2 and the customer 3 via the network 10.

  In the example shown in FIG. 1, each of the terminal 4 and the monitoring device 5 installed on the customer 3 side has an independent configuration. For example, the functions of the terminal 4 and the monitoring device 5 are integrated. You may make it employ | adopt the apparatus 4A.

  Here, a specific system configuration of the electrical equipment maintenance management system 1 according to the present embodiment will be described. FIG. 2 is a diagram showing a system configuration of an electrical equipment maintenance management system according to an embodiment of the present invention.

  As illustrated, the maintenance server 20 includes a maintenance information acquisition unit 21, a maintenance information provision unit 22, a demand power control unit 23, and a database 200 (shown as “DB”).

  The maintenance information acquisition means 21 acquires the monitoring status of the electrical equipment 6 installed on the customer 3 side and the monitoring information of the electric energy. Specifically, information measured by the monitoring device 5 that monitors the status of the electrical equipment 6 installed on the customer 3 side and the amount of power is acquired regularly or in real time. The monitoring status of the electrical equipment 6 here is, for example, the insulation status of the electrical equipment 6 and the like, and is information measured by the insulation monitoring means 51 described later. On the other hand, the power amount monitoring information includes, for example, the amount of electricity used, the demand value, the average power amount per unit time, the maximum power amount, the load state, etc. This is measured information.

  Further, the maintenance information acquisition means 21 may have a function of receiving a request from the customer 3 or a reservation date for checking the electrical equipment 6 and managing the schedule.

  The maintenance information providing unit 22 provides maintenance information stored in a database 200 described later. Specifically, for example, when there is an access from the terminal 4 held by the customer 3, maintenance information is provided after a predetermined authentication process. Further, the maintenance information providing unit 22 may have a function of providing a proposal for a request from the customer 3.

  The demand power control means 23 controls demand power based on maintenance information managed by a database 200 described later. The demand power here is an average power per unit time, and is generally managed as a demand value. This demand value is a numerical value serving as a reference for determining the basic charge of contract power. In other words, since the maximum demand value is reflected in the basic charge, the electricity charge is suppressed by performing control such that the demand value decreases. The power demand control means 23 controls the power demand (demand value) of the electrical equipment based on the set priority order when the priority order for the control procedure of the electrical equipment 6 for each customer 3 is preset. To do. In this case, for example, as shown in FIG. 3, the control information (application information for automatic control) for each customer 3 only needs to be stored in the database 200 described later. In the example shown in FIG. 3, the presence / absence of application of automatic control for each customer 3 and the priority of automatic control for the individual electrical equipment 6 are stored and managed together with the average power consumption. Thereby, based on the database 200, for example, the power demand of the entire electrical equipment 6 can be controlled by controlling the power supply to be sequentially cut off from the individual electrical equipment 6 having a low priority.

  The database 200 stores various types of information necessary for maintenance management of the electrical equipment 6. Specifically, the acquired monitoring status of the electrical equipment 6 and the monitoring information of the electric energy are accumulated and managed as maintenance information for each customer 3. The database 200 is updated as needed based on the monitoring status of the electrical equipment 6 and the monitoring information of the electric energy acquired by the maintenance information acquiring unit 21. In addition to the maintenance information described above, as information acquired by the maintenance information acquisition means 21, for example, requests from the customer 3 and inspection date reservations are managed, and information provided by the maintenance information provision means 22 is provided. For example, a proposal item or a contact item for a request item from the customer 3 may be managed. Furthermore, as personal information concerning the customer 3, for example, contract contents, fee information, payment status, and the like may be managed.

  On the other hand, the monitoring device 5 installed on the customer 3 side includes an insulation monitoring means 51 for monitoring a leakage state as a status of the electrical equipment 6 and an electric energy monitoring means 52 for monitoring the electrical energy related to the electrical equipment 6. Yes. Various types of information monitored by the monitoring device 5 are transmitted to the maintenance server 20 via the network 10. Further, the insulation monitoring means 51 issues an alarm to the customer 3 when the leakage current becomes a predetermined current value or more.

  The terminal 4 browses and exchanges information related to maintenance management managed by the maintenance center 2 or information necessary for maintenance management via the network 10. Such a terminal 4 should just be an information communication apparatus provided with the various functions of a general computer, for example, a personal computer is mentioned.

  Next, the operation procedure of the electrical equipment maintenance management system 1 in this embodiment will be described with reference to the drawings. FIG. 4 is a diagram showing a communication sequence of the electrical equipment maintenance management system according to the embodiment of the present invention.

  As shown in the figure, first, the monitoring status and the amount of electric power of the electrical equipment 6 are monitored regularly or in real time by the monitoring device 5 installed on the customer 3 side (S1). Then, the monitoring status and power amount of the electrical equipment 6 monitored by the monitoring device 5 are transmitted to the maintenance server 20 via the network 10 (S2).

  In the maintenance server 20, when the maintenance information acquisition unit 21 acquires the monitoring status and the electric energy of the electrical equipment 6, the information is stored in the database 200 as maintenance information for each customer 3. In this way, information related to maintenance management for each customer 3 is collectively managed in the maintenance center 2.

  Here, for example, when the maintenance server 20 is accessed from the terminal 4 held by the customer 3 (S3), the maintenance server 20 performs authentication for confirming the validity of the customer 3 (S4). When the validity of the customer 3 is confirmed by the maintenance server 20, the customer 3 can browse his / her maintenance information managed by the database 200 (S5). At this time, for example, an authentication process may be performed by inputting an ID for identifying the customer 3 and a password for identity verification.

  On the other hand, the maintenance server 20 manages the amount of power on the customer 3 side based on the acquired maintenance information. For example, whether or not the target demand value is exceeded is determined by the demand power control means 23 (S6), and if the target demand value is exceeded (S6; Yes), the terminal 4 of the customer 3 is A warning indicating that the demand value has been exceeded is transmitted (S7).

  Upon receiving a warning indicating that the demand value has been exceeded, the customer 3 transmits a control request for the electrical equipment 6 from the terminal 4 when automatic control of the electrical equipment 6 is desired (S8).

  Upon receiving the control request from the customer 3 side, the maintenance server 20 controls the electrical equipment 6 with respect to the monitoring device 5 on the customer 3 side based on information indicating the priority order of the control procedure preset in the database 200. An instruction is transmitted (S9).

  Receiving the control instruction, the monitoring device 5 individually controls the electrical equipment 6 based on the information included in the control instruction (S10). And the monitoring condition and electric energy of the electrical installation 6 monitored by the monitoring apparatus 5 are transmitted to the maintenance server 20 (S11). As a result, information related to monitoring after control is updated on the database 200, so that the maintenance center 2 can manage the latest maintenance information.

It is a figure showing a schematic structure of an electric equipment maintenance management system concerning one embodiment of the present invention. It is a figure which shows the system configuration | structure of the electric equipment maintenance management system which concerns on one Embodiment of this invention. It is a figure which shows an example of the control information which concerns on one Embodiment of this invention. It is a figure which shows the communication sequence of the electric equipment maintenance management system which concerns on one Embodiment of this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 2 Maintenance center 3 Customer 4 Terminal 5 Monitoring apparatus 6 Electric equipment 10 Network 20 Maintenance server 21 Maintenance information acquisition means 22 Maintenance information provision means 23 Demand power control means 51 Insulation monitoring means 52 Electricity amount monitoring means 200 Database

Claims (8)

An electrical equipment maintenance management system via a network for maintaining and managing electrical equipment installed on a customer side from a remote location,
Maintenance information acquisition means for acquiring the monitoring status of the electrical equipment installed on the customer side and the monitoring information of the electric energy;
A database for accumulating and managing the acquired monitoring status of electrical equipment and monitoring information of electric energy as maintenance information for each customer;
An electrical equipment maintenance management system via a network, comprising maintenance information providing means for providing maintenance information stored in the database. 2. The electrical equipment maintenance management system via a network according to claim 1, wherein the database is updated as needed based on the acquired monitoring status of electrical equipment and monitoring information of electric energy. 3. The electrical equipment maintenance management system according to claim 1, further comprising demand power control means for controlling demand power based on maintenance information managed in the database. In Claim 3, the said database WHEREIN: The priority regarding the control procedure of the electrical equipment for every customer is preset and managed, The said demand power control means is the demand of electrical equipment based on the set priority. An electrical equipment maintenance management system via a network characterized by controlling electric power. 5. The monitoring status and electric energy monitoring information of the electrical equipment acquired by the monitoring information acquisition means according to claim 1, wherein the monitoring information for monitoring the status and electric energy of the electrical equipment installed on the customer side An electrical equipment maintenance management system via a network characterized by being measured by a device. 6. The network according to claim 5, wherein the monitoring device includes an insulation monitoring unit that monitors a leakage state as a state of the electrical equipment, and a power amount monitoring unit that monitors a power amount related to the electrical facility. Electric equipment maintenance management system. 7. The electrical equipment maintenance management system according to claim 6, wherein the insulation monitoring means issues an alarm to a customer when a leakage current becomes a predetermined current value or more. In any one of Claims 1-7, the said maintenance information acquisition means is equipped with the function to receive and schedule the request matter from a customer, or the inspection date of an electrical installation, The said maintenance information provision means is from a customer. An electrical equipment maintenance management system via a network, which has a function of providing a proposal for a desired request.

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