KR20180019055A - Schedule control apparatus, facility management system, and schedule control method - Google Patents

Abstract

In a facility management system where a communication protocol, in which a control state of a device is not taken over when changing a date, such as BACnet or the like is applied, a facility management device capable of setting a control schedule over a date without requiring individual response work by a user with respect to a control schedule for controlling a device in a facility is provided. The facility management device comprises an instruction information reception part (201) and a state setting part (2021). The instruction information reception part (201) receives control schedule setting instruction information for setting the control schedule of a device (4n). In a control state of the device when changing a date on the corresponding date designated by the control schedule setting instruction information, the state setting part (2021) sets a control state equal to a control state finally set in the previous date based on the control schedule setting instruction information received by the instruction information reception part (201).

Description

[0001] SCHEDULE CONTROL APPARATUS, FACILITY MANAGEMENT SYSTEM, AND SCHEDULE CONTROL METHOD [0002]

The present invention relates to a schedule control device, a facility management system, and a schedule control method for controlling information for managing equipment in a facility.

BACKGROUND ART [0002] In a facility management system for managing the operation of equipment installed in facilities in a facility, a technique for setting a control schedule for controlling equipment in the facility has been known.

For example, Patent Document 1 discloses a facility which is provided so as to be able to communicate with a control device of an equipment through a network, creates an operation schedule of the equipment for a predetermined period of time and creates control data of the equipment according to the operation schedule A device management apparatus is disclosed.

On the other hand, recently, in the facility management system, in order to provide a common interface even if the various devices in the facilities in the facility are proprietary to the maker, the integrated network of the devices in the facility such as the heat source device, the air conditioner device, , And BACnet (registered trademark, hereinafter abbreviated as "BACnet").

In the facility management system, there is a function of setting an operation schedule for equipment in a facility such as a heat source device, an air conditioner device, a lighting device, etc., for example, This makes it possible to share schedule setting information among a plurality of vendors.

Patent Document 1: JP-A-2009-296555

In the technique disclosed in Patent Document 1, it is possible to create an operation schedule of equipment for a predetermined period. However, the equipment management apparatus disclosed in Patent Document 1 does not support BACnet.

In BACnet, the schedule setting is performed on a day-by-day basis. For example, when a schedule for setting a control state over a date is set, if the date is changed, The device is controlled to the initial value that was set.

Therefore, in the facility management system, for example, when a communication protocol in which the control state of the device is not taken over when the date is changed, such as BACnet, is employed, for example, There is a problem that it is necessary to perform an operation such as setting the user back to a desired setting before the control state of the device is initialized.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and it is an object of the present invention to provide a facility management system, such as BACnet, in which a communication protocol in which a control state of a device is not taken over when a date is changed, A facility management method, and a facility management system in which it is possible to set a control schedule over a date without requiring individual correspondence work by a user.

The schedule control device according to the present invention is a schedule control device for setting a control schedule for controlling a device managed in a facility management system to which a communication protocol that can not take over the control state of the device at the time of date change is applied, The control schedule setting instruction information for setting the control schedule setting instruction information on the basis of the control schedule setting instruction information received by the instruction information receiving unit, And a state setting section for setting a control state that is the same as the control state set last in the previous day.

According to the present invention, in the facility management system corresponding to the communication protocol in which the control state of the apparatus is not taken over at the time of the date change, such as BACnet, the control schedule for controlling the facility apparatus in the facility, It is possible to set a control schedule over a period of time.

Brief Description of the Drawings Fig. 1 is a diagram showing an example of an example in which, in a facility management system corresponding to BACnet, a device in the facility management system shares schedule setting information among a plurality of vendors.
FIG. 2 is a diagram showing a general configuration of a facility management system corresponding to BACnet, in which a central monitoring apparatus starts driving the apparatus at 9:00 am on a certain day and turning off the apparatus at 5:00 pm This is an example of an image of operation schedule data created by the server when a schedule is set.
Fig. 3 generally shows an example of an image of the operation schedule data when the apparatus is controlled according to the " initial value of the control state " on the day, regardless of the operation state that was set last at the previous day in the facility management system It is an example.
4 is a diagram showing a configuration of a facility management system according to Embodiment 1 of the present invention.
5 is a configuration diagram of a facility management apparatus according to Embodiment 1 of the present invention.
6 is a configuration diagram of a schedule control apparatus mounted on a server according to Embodiment 1 of the present invention.
Fig. 7 is a flowchart for explaining an operation related to the " operation schedule setting instruction function " in the facility management apparatus according to the first embodiment of the present invention.
8 is a flowchart for explaining the operation of the schedule control apparatus mounted on the server in the first embodiment.
Fig. 9 is a diagram for explaining an example of information stored in the schedule storage unit in the first embodiment. Fig.
10 is a diagram for explaining an example of information stored in the schedule storage unit in the first embodiment.
11 is a flowchart showing the operation of the facility management system according to the first embodiment of the present invention. In the facility management system, on the basis of an operation schedule setting instruction from a user accepted by the facility management apparatus, In which control data is generated based on the operation schedule data and the controller controls the device in accordance with the control data.
Fig. 12 is a flowchart for explaining an operation related to the " operation schedule display function " in the facility management apparatus according to the first embodiment of the present invention.
13 is a diagram showing an example of a display screen of an operation schedule displayed on the display unit by the display control unit in the first embodiment.
14 is a diagram showing an example of a display screen displaying an operation schedule in a general facility management apparatus in the related art.
Fig. 15 is a view for explaining an example of an example of a control schedule in which, in the addendum a, the most recent operation state is set when the 0:00 operation state is not set.
16 is a configuration diagram of a schedule control apparatus according to Embodiment 2 of the present invention.
17 is a flowchart for explaining the operation of the schedule control apparatus according to the second embodiment of the present invention.
18 is a diagram for explaining an example of information stored in the schedule storage unit of the schedule control apparatus according to the second embodiment.
19 is a diagram showing an example of a display screen of an operation schedule displayed by the display control unit of the facility management apparatus as a video in the second embodiment.

DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

Embodiment 1

First, BACnet, which is a premise of the facility management system of the present invention, and problems in the facility management system corresponding to the BACnet will be described.

The facility management system includes devices in the facility such as a central monitoring device, a server, a controller, a heat source device, an air conditioner device, and a lighting device, and when the operation schedule of each device is set in the central monitoring device, Generates control data based on the operation schedule, and transmits the control data to the controller. The controller controls the devices in the facility, and controls each device based on the control data transmitted from the server.

In the present invention, it is premised that the facility management system supports BACnet.

BACnet is an international communication standard, and is a standardized open protocol for interconnection of systems built by different vendors, ie, manufacturers and sales companies.

In the facility management system, when a central monitoring apparatus constituting the facility management system sets a control schedule for controlling equipment in the facility, control schedule data is created in the server based on the set control schedule, The devices in the facility management system are controlled. More specifically, the user sets the operation schedule of the device from the central monitoring device, for example, as a control schedule, for example, for the purpose of performing an integrated operation of the device in the facility. Here, the operation schedule includes, for example, the contents of the running of the apparatus, that is, the operating state of the apparatus, and the date and time of issuing the issuing instruction.

Hereinafter, as an example, the central monitoring apparatus is described as setting the operation schedule for controlling the operation state of the equipment managed in the facility management system, that is, the operation state. However, the present invention is not limited to this, In the device, a control schedule for controlling all the control states of all devices managed in the facility management system, such as the set temperature of the air conditioner, or the valve opening, can be set.

If the facility management system supports BACnet, schedule setting information can be shared among a plurality of vendors.

For example, as shown in Fig. 1, when a user such as a facility manager or the like, for controlling the heat source device 104 manufactured by Company C in the facility, on the server 102 manufactured by Company A from the central monitoring apparatus 101 The server 102 sets the operation schedule and the server 102 records the information of the operation schedule created based on the set contents in the heat source device controller 103 manufactured by the company B. The heat source device controller 103 controls the heat source device 104 can be controlled.

Thus, by using BACnet as a communication protocol between the central monitoring device 101, the server 102, the heat source device controller 103 and the heat source device 104 in the facility management system, Apparatuses, and the like can be used as control devices regardless of vendors, and a flexible system can be constructed by a multi-vendor according to various purposes such as cost, scale, and function.

In this BACnet, the setting of the control schedule holds data in units of one day. For example, if the operation schedule of a certain device is set to be ON at 9:00 AM and to stop the device at 5:00 PM, the central monitoring device 101 may set the operation schedule And the image of the operation schedule data created in the server 102 is as shown in Fig.

2 shows an example of the facility management system corresponding to BACnet in which the central monitoring apparatus 101 starts the apparatus at 9:00 AM and stops the apparatus at 5:00 PM Is an example of an image of operation schedule data created by the server 102 when an operation schedule is set.

As shown in Fig. 2, in the server 102, data such as " 9:00 ON " and " 17:00 OFF "

Normally, when setting the operation schedule, the user designates the timing at which the operation state is switched, and sets the control contents. In the example described above, the user assumes that the device is controlled in the operating state from the previous day from 0:00 to 9:00, and the operating state of the device is turned ON at 9:00 on that day Then, the operation schedule is set on the assumption that the operation state is "ON" until 17:00, and when the operation is 17:00, the operation state of the device is switched to "OFF".

However, in the BACnet, since the data is held in units of one day as described above, it is not possible to take over the operation state set last at the previous day. That is, as shown in Fig. 2, on the created operation schedule data, the operating state is not set between 0:00 and 9:00 on the day.

In the BACnet, the controller such as the heat source device controller 103 controls the devices such as the heat source device 104 in the operating state according to the " initial value of the control state " . The "initial value of the control state" is set by the user such as the facility manager from the central monitoring apparatus 101 in advance.

Therefore, in the case of FIG. 2, the control data that the operation state of 0:00 to 9:00 is not set is transmitted from the server 102 to the controller, regardless of the operation state set last at the previous day, , The apparatus is controlled between 0:00 and 9:00 in the operating state according to the preset " initial value of the control state ".

3 is an example of the image of the operation schedule data when the apparatus is controlled according to the " initial value of the control state " on the day, regardless of the operation state that was set last in the facility management system .

In Fig. 3, the previous day is set to the first day and the day is set to the second day. For example, the operation schedule of the first day is set to "ON" by the user at 9:00 AM, It is assumed that the operation schedule is set. It is assumed that the " initial value of the control state " is set to " OFF ".

In this case, at 9:00 on the first day, the apparatus starts up according to the operation schedule, and when it reaches 0:00 on the second day, the apparatus is in a state in which the apparatus is not started according to the " initial value of the control state ".

For example, the user may start the device at 9:00 on the first day, keep the device activated even on the second day, and set the operation schedule for the second day as the operation schedule for stopping the device when the second day is 17:00 17:00 OFF " is set, that is, even if the user wants to operate the device for two days, the operation state set at the end of the first day is not taken over on the second day, Initial value " is set to " OFF ", the device is stopped at 0:00 on the second day.

Therefore, in the facility management system corresponding to the conventional BACnet, there is a problem that the user needs to individually cope with this situation.

Specifically, for example, the user changes the "initial value of the control state" from "OFF" to "ON" before 0:00 on the second day from the central monitoring apparatus 101 . Then, after 0:00 on the second day, the changed initial value of the control state is returned to OFF.

However, in the above-described correspondence, there is a problem that a setting mistake or a setting forget-over may occur, and in this case, the operation schedule of the device of another day is also influenced.

As another individual correspondence, for example, the user can give a response from the central monitoring apparatus 101 to newly set "ON" as the operating state at 0:00 on the second day. That is, as an operation schedule on the second day, there is a correspondence for setting an operation schedule of "0:00 ON" and "17:00 OFF".

However, in the above correspondence, the user is required to set the operation state of 0:00 on the second day on purpose, and it is troublesome. There is also a problem that setting forgetting may occur.

Furthermore, as a premise for performing the above-described correspondence, the user also needs knowledge about handling of " initial value of control state " in BACnet and BACnet, and this is a problem .

In order to solve the above problems, an additional guideline "IEIEJ-G-0006: 2006 (BACnet System Interoperability Guideline)" (supplementary a) of BACnet established by IEIEJ, The automatic rewriting of the " initial value of the control state " is encouraged. The automatic rewrite encouraged by the addenda a is an operation for continuously updating the " initial value of the control state " to the " latest set value " whenever the control schedule is not set. In other words, for example, in the case of the example shown in Fig. 3, at the time of 0:00 on the second day, the "most recent set value", that is, "ON" .

Accordingly, even if the time reaches 0:00 on the second day, the apparatus can be put into a state in which the apparatus is started for two days without stopping.

However, as described above, the above-mentioned addenda a is determined by the Japan Electrical Manufacturers Association and is not widely adopted internationally. Therefore, for example, in the case where the facility management system is a multi-vendor system in which Japanese devices and foreign devices are mixed, it is not possible to share the information of the set operation schedule between the Japanese device and the foreign device. For example, in the example shown in Fig. 1, the server 102 corresponds to addend a, and when the heat source device controller 103 does not correspond to addend a, And the user can not control the heat source device 104 with a desired operation schedule. As a result, if the device is to be controlled for two days, for example, there is still a problem in that individual handling by the user is required as described above.

In addition, the user needs knowledge about addenda a as well as BACnet, which can be a large burden.

The present invention solves the above-mentioned problems, and it is an object of the present invention to provide a facility monitoring system in which, for example, a communication protocol such as BACnet is applied to a communication protocol in which a control state of a device is not taken over when a date is changed, It is possible to set a control schedule over a date without requiring an individual response work by a user such as a facility manager with respect to the control schedule. As a result, it is possible to control the device in the facility monitoring system in a control schedule over a long period of time without requiring an individual countermeasure operation by the user.

4 is a diagram showing a configuration of a facility management system according to Embodiment 1 of the present invention.

4, the facility management system includes a facility management apparatus 1, a server 2, at least one device 41, 42, 43, ... installed in the facility, 43, ... are connected to one another. Hereinafter, it is assumed that at least one controller 31, 32, 33, ... is displayed by the controller 3n. It is also assumed that at least one device 41, 42, 43, ... is displayed by the device 4n.

The facility management apparatus 1, the server 2, and the controller 3n are connected via a network. Further, the controller 3n and the device 4n are connected via a network. The facility management apparatus 1, the server 2, and the controller 3n are executed by a program process using a CPU based on software. Although not shown in Fig. 4, the server 2 has the schedule control device 21 mounted thereon. Details of the schedule control device 21 will be described later.

4, BACnet is applied to the communication protocol between the facility management apparatus 1, the server 2, the controller 3n, and the device 4n.

The controller 3n controls, for example, a device 4n such as a heat source device, an air conditioner device, and a lighting device.

The facility management apparatus 1 is a central monitoring apparatus capable of collectively managing each device 4n in the facility via the server 2 and the controller 3n and is constituted by a PC (Personal Computer) or the like. The facility management apparatus 1 is installed, for example, in a management room of a facility.

The facility management apparatus 1 receives an instruction to create a control schedule for controlling each device 4n in the facility from a user such as a facility manager. The facility management apparatus 1 transmits control schedule creation instruction information concerning an instruction to create the received control schedule to the schedule control apparatus 21 mounted on the server 2. In Embodiment 1, as an example of the control schedule, the facility management apparatus 1 instructs to set the operation schedule of each device 4n.

The facility management apparatus 1 also displays the operation schedule of each device 4n in the facility based on an instruction from the user such as an administrator of the facility. The user confirms the operation schedule of each device 4n by checking the displayed operation schedule.

As described above, in the first embodiment, as an example, the facility management apparatus 1 instructs generation of the operation schedule data in which the operation state of the device, that is, the generation of the operation of the device, However, the present invention is not limited to this, and the facility management apparatus 1 can instruct creation of control schedule data in which a control state for performing control other than the heating or the like of the operation of the apparatus is set.

The server 2 creates and stores control schedule data in which a control schedule for controlling each device 4n in the facility is set based on the control schedule creation instruction information transmitted from the facility management device 1. [ Here, the control data is, for example, data for controlling the operation of the device 4n, that is, the operation or stop of the device 4n. That is, here, the server 2 creates and stores the operation schedule data in which the operation schedule of each device 4n in the facility is set, based on the operation schedule creation instruction information transmitted from the facility management device 1. [

The server 2 also creates control data for controlling the device 4n based on the created operation schedule data and transmits the control data to the controller 3n. In other words, here, the control data is, for example, data for performing the control for causing the device 4n to emit, that is, to operate or stop the device 4n.

Specifically, the operation of the server 2 is performed by the schedule control device 21 mounted on the server 2. [

That is, the schedule control device 21 of the server 2 creates the operation schedule data, and transmits the control data based on the operation schedule data to the controller 3n. The controller 3n controls the device 4n in accordance with the control data when it is time to control the device 4n such as operation or stop based on the control data.

In addition, the server 2 communicates with the controller 3n at the set monitoring period, collects monitoring point data of the device 4n from the controller 3n, and stores the collected monitoring point data. The user can use the monitoring point data stored in the server 2 to display the monitoring point data stored in the server 2 in the facility management apparatus 1 and display the monitoring point data stored in the server 2 ) Can be monitored.

5 is a configuration diagram of the facility management apparatus 1 according to the first embodiment of the present invention.

5, the facility management apparatus 1 includes an input reception unit 11, an instruction information transmission unit 12, a display control unit 13, and a display unit 14. [

The input reception unit 11 accepts an operation schedule setting instruction or an operation schedule display instruction from an input device (not shown) such as a mouse or a keyboard.

In the first embodiment, for example, the user starts the operation schedule setting screen and inputs a desired operation schedule for controlling each device 4n in the facility to the input unit displayed on the display unit 14, And instructs to set the operation schedule of each device 4n in the facility.

When accepting the operation schedule setting instruction, the input receiving unit 11 outputs the operation schedule setting instruction information based on the received operation schedule setting instruction to the instruction information transmission unit 12. [

The manager or the like of the facility may start the operation schedule reference screen and input the device 4n for which the operation schedule currently set is displayed on the input unit displayed on the display unit 14, A display instruction is made to display on the display unit 14 the operation schedule for controlling the device 4n set in the device 4n in the facility by clicking the mouse on the device 4n.

When accepting the display instruction of the operation schedule, the input reception section 11 outputs the operation schedule display instruction information based on the display instruction of the received operation schedule to the display control section 13. [

The instruction information transmission unit 12 transmits the operation schedule setting instruction information output from the input reception unit 11 to the schedule control device 21 mounted on the server 2. [

The operation schedule setting instruction information is information obtained by combining at least the device 4n, the specified date, and the information of the operating state of the time specified by the user on the specified date.

The information of the designated date included in the operation schedule setting instruction information is specifically the information on the date on which the year and month are specified such as " July 10, 2016 ". Here, this is only one example. Here, the information of the designated date included in the operation schedule setting instruction information may be information specifying, for example, "day of week", and may be "July 10, 2016 to July 30, May be designated information, and the specific day of the specific month may be specified information, such as " third Thursday of an even-numbered month ". For example, it may be information designated in advance, "holiday" based on the stored calendar, and "holiday". The specified date may be information that can specify the corresponding day in the schedule control device 21 where the same control state as the last set control state of the previous day should be set. In other words, the user can instruct setting of the operation schedule, in which the above-described information is designated as the designated date.

The configuration of the schedule control device 21 and the operation of setting the same control state as the last set control state of the previous day in the schedule control device 21 will be described later.

The display control unit 13 refers to the schedule storage unit 203 included in the schedule control device 21 mounted on the server 2 based on the operation schedule display instruction information output from the input reception unit 11, The display unit 14 displays an image showing the contents of the operation schedule of the specified date on the specified device 4n.

The display unit 14 displays an image created by the display control unit 13, such as a CRT (Cathode Ray Tube), a liquid crystal display, or the like.

6 is a configuration diagram of a schedule control device 21 mounted on the server 2 according to Embodiment 1 of the present invention.

6, the schedule control device 21 includes an instruction information receiving unit 201, a schedule data creation control unit 202, a schedule storage unit 203, a control data creation unit 204, (205). The schedule data creation control section 202 includes a state setting section 2021 and a schedule data creating section 2022. [

The instruction information receiving unit 201 receives the operation schedule setting instruction information transmitted from the instruction information transmitting unit 12 of the facility management device 1. [ The instruction information receiving unit 201 outputs the received operation schedule setting instruction information to the schedule data creation control unit 202. [

The schedule data creation control section 202 sets the operation state of the device 4n at the time of changing the date on the designated date on the basis of the operation schedule setting instruction information output from the instruction information reception section 201, And stores the generated operation schedule data in the schedule storage unit 203.

The state setting unit 2021 of the schedule data creation control unit 202 sets the operation schedule of the device 4n specified in the operation schedule setting instruction information based on the operation schedule setting instruction information output from the instruction information receiving unit 201, And sets the driving state at the time of changing the date to the date of the date on the designated date.

More specifically, the state setting unit 2021 sets the state of the device 4n specified in the operation schedule setting instruction information to the operation state at the time point 0:00 of the date designated by the operation schedule setting instruction information, Is set to the same operating state as the operating state set in Fig.

The schedule data creation unit 2022 of the schedule data creation control unit 202 stores the operation schedule setting instruction information output by the instruction information receiving unit 201 and the schedule schedule setting instruction information set by the state setting unit 2021, Based on the information of the operating state of the vehicle.

The schedule data creation unit 2022 outputs the created operation schedule data to the control data creation unit 204. [ The schedule data creation unit 2022 also stores the created operation schedule data in the schedule storage unit 203. [

The schedule storage unit 203 stores the operation schedule created by the schedule data creation unit 2022 of the schedule data creation control unit 202 for each device 4n. The schedule storage unit 203 is configured by, for example, an HDD, a DVD, a memory, and the like.

6, the schedule storage unit 203 is provided with the schedule control unit 21, but the schedule storage unit 203 is not limited to this, and the schedule storage unit 21 , And the schedule control device 21 may refer to the schedule storage unit 203 via the network.

The control data creation section 204 creates control data for controlling the device 4n based on the operation schedule data output by the schedule data creation control section 202. [ Specifically, the control data creating unit 204 creates the control data creating unit 204, for example, on the basis of the controller 3n that controls the device 4n, the information of the device 4n controlled by each controller 3n, And generates control data set in response to the information of the operation schedule for controlling the operation schedule.

The control data creation unit 204 outputs the created control data to the transmission unit 205. [

The transmitting unit 205 transmits the control data created by the control data creating unit 204 to the corresponding controller 3n set in the control data.

Although not shown in Fig. 6, the server 2 has a data collecting unit for periodically collecting time point monitoring point data of the device 4n from the controller 3n. The data collecting unit may collect surveillance point data at a surveillance period set for each surveillance point, for example, or may collect surveillance point data from the controller 3n all the time.

The data collecting unit stores the surveillance point data collected from the controller 3n in a surveillance point data storage unit (not shown). In this case, the data collecting unit combines the collected surveillance point data with the surveillance point information and the surveillance point data collection time, and stores them in the surveillance point data storage unit.

The user can manage each device 4n in the facility by referring to the contents of the monitoring point data stored in the monitoring point data storage unit.

The operation of the facility management apparatus 1 according to the first embodiment of the present invention will be described.

The facility management apparatus 1 according to the first embodiment of the present invention has an " operation schedule setting instruction function " and an " operation schedule display function ".

First, the operation related to the "operation schedule setting instruction function" of the facility management apparatus 1 will be described.

Fig. 7 is a flowchart for explaining the operation relating to the " operation schedule setting instruction function " in the facility management apparatus 1 according to the first embodiment of the present invention. First, the operation of the operation schedule creation instruction of the facility management apparatus 1 will be described with reference to Fig.

The input reception unit 11 waits until the operation schedule setting instruction is accepted ("NO" in step ST701), and if the operation schedule setting instruction is received ("YES" in step ST701) And outputs the operation schedule setting instruction information based on the schedule setting instruction to the instruction information transmission unit 12. [

A user such as a facility manager operates an input device such as a mouse or a keyboard to give an operation schedule setting screen start instruction. The input accepting unit 11 outputs the received operation schedule setting screen start instruction information to the display control unit 13 when the operation schedule setting screen start instruction is received, and the display control unit 13 controls the input receiving unit 11, On the display unit 14, an operation schedule setting screen based on the operation schedule setting screen start instruction received by the operation schedule setting screen start instruction.

The user inputs the desired operation schedule including the equipment 4n in the facility to be controlled, the date and time to control, and the operation state to the input unit displayed on the operation schedule setting screen displayed on the display unit 14, And instructs the setting of the operation schedule of each device 4n in the control unit 4c.

In step ST701, the input accepting unit 11 accepts the information of the operation schedule of the device 4n, which is input by the user.

Then, the input reception unit 11 sets information, which includes the information including the operation state of the received device 4n, the date and time, and the device 4n, as the operation schedule setting instruction information.

Here, for example, assuming that the user has set an operation schedule for turning off the operation of the device A at 17:00 as the operation schedule of July 10, 2016, the input accepting unit 11 instructs the device A, the information on July 10, 2016, and the information indicating that the operation is "OFF" at 17:00, to the instruction information transmission unit 12 as the operation schedule setting instruction information.

If, for example, the operation is turned " OFF " at 17:00, the operation continues to be in the " OFF " state on the same day until a new operation schedule is set.

It is to be noted that, here, the user is instructed to set an operation schedule for one day, but this is only an example, and the user may make an instruction to set the operation schedule for a plurality of days.

The instruction information transmission section 12 transmits the operation schedule setting instruction information output from the input reception section 11 to the schedule control device 21 mounted on the server 2 (step ST702).

Next, the operation schedule setting instruction information transmitted from the facility management apparatus 1 is received (not shown) in the first embodiment of the present invention The operation of one schedule control device 21 will be described.

8 is a flowchart for explaining the operation of the schedule control device 21 mounted on the server 2 in the first embodiment of the present invention.

The instruction information receiving unit 201 waits until the operation schedule setting instruction information is received from the instruction information transmitting unit 12 of the facility management apparatus 1 (in the case of "NO" in step ST801), the operation schedule setting instruction information (In the case of "YES" in step ST801), it outputs the received operation schedule setting instruction information to the schedule data creation control section 202. [

The state setting unit 2021 of the schedule data creation control unit 202 acquires the operation schedule setting instruction information from the instruction information receiving unit 201 and refers to the schedule storage unit 203 to execute the operation schedule setting instruction, The operating state at the time of changing the date to the date of the date of the specified date of the device 4n, that is, the operating state at the time of 0:00 of the corresponding date of the device 4n, (Step ST802). Here, as described above, in the facility management apparatus 1, for example, when the user operates the operation schedule of the device A as an operation schedule of July 10, 2016, at 17:00, Information combining the information of the apparatus A, the information of July 10, 2016, and the information of turning OFF the operation at 17:00 is input as the operation schedule setting instruction information to the facility management apparatus ( 1, the state setting unit 2021 sets the state of operation at the time of 0:00 of the device A on July 10, 2016, and ends the operation of the device A at the end of July 9, 2016 Is set. For example, when the operation schedule of the device A on July 9, 2016 is "0:00 OFF" and "9:00 ON", the last set operation state is "ON" 2021) sets " ON " as the operation state at the time of 0:00 of the device A on July 10, 2016.

Here, FIG. 9 is a diagram for explaining an example of information stored in the schedule storage unit 203 in the first embodiment.

As shown in Fig. 9, the schedule storage unit 203 stores the date and the information related to the operation schedule in association with each device 4n. 9 shows an operation schedule of the device A stored in the schedule storage unit 203 as an example.

From the information stored in the schedule storage unit 203, the state setting unit 2021 can specify the operation state set lastly on July 9, 2016 for the device A. [

If the schedule storage unit 203 does not store the operation schedule related to the corresponding device 4n on the date, for example, when the schedule control device 21 is installed, the state setting unit 2021 sets the initial Value may be set to the operating state at the time of 0:00. It is assumed that the " initial value of the control state " is appropriately set in advance by the user and stored in a place in the schedule control device 21 that can be referred to by the schedule data creation control section 202. [

The contents shown in Fig. 9 are merely an example, and the schedule storage unit 203 stores at least the operation schedules assigned with the information of the device 4n, the date, and the automatic setting flag in correspondence with each other It should be. The automatic setting flag will be described later.

The state setting unit 2021 sets the information of the operation schedule " ON " of the device A at the time of 0:00 at Jul. 10, 2016, To the schedule data creation unit 2022 of the schedule data creation control unit 202. [

The schedule data creation unit 2022 of the schedule data creation control unit 202 stores the operation schedule setting instruction information received by the instruction information receiving unit 201 in step ST801 and the operation schedule setting instruction information received by the state setting unit 2021 in step ST802 Based on the information of the operating state at the time of 0:00 of the date, the operation schedule data is created (step ST803). Specifically, the state setting unit 2021 sets the operation schedule at the time of 0:00 with respect to the operation schedule of the date set in the operation schedule setting instruction information, that is, the operation schedule designated by the user, for each device 4n The data in which the operation state at the time of 0:00 is set is created as the operation schedule data. Here, the schedule data creation unit 2022 creates the operation schedule data associated with the operation schedule of "0:00 ON" and "17:00 OFF" with respect to the device A on July 10, 2016 .

At this time, the schedule data creating unit 2022 gives the information of the automatic setting flag = 1 to the information of the operating state at the time of 0:00 set by the state setting unit 2021 in step ST802. In this case, the initial value of the automatic setting flag is set to zero.

The schedule data creating unit 2022 outputs the created operation schedule data information to the control data creating unit 204 (step ST804).

The schedule data creation unit 2022 stores the created operation schedule data in the schedule storage unit 203 (step ST805). As a result, the contents of the schedule storage unit 203 as shown in Fig. 9 are stored in the schedule storage unit 203 of "0:00 ON" and "17:00 OFF" of the device A on July 10, The operation schedule is added with the information of the automatic setting flag added.

It should be noted that although the schedule data creating section 2022 has been described so that the automatic setting flag is given to the operation state set by the state setting section 2021 and is stored in the schedule storing section 203 in step ST803, And information that can be used to distinguish the operating state set by the state setting unit 2021, that is, the operating state automatically set by the schedule control device 21, rather than by designation by the user is given .

The control data creation unit 204 creates control data for controlling the device 4n based on the information of the operation schedule data output by the schedule data creation unit 2022 in step ST804 (step ST806). Specifically, the control data creating unit 204 creates the control data creating unit 204, for example, on the basis of the controller 3n that controls the device 4n, the information of the device 4n controlled by each controller 3n, And generates control data set in response to the information of the operation schedule for controlling the operation schedule.

The schedule control device 21 stores a correspondence table in which the controller 3n and the device 4n controlled by the controller 3n are combined in advance at a place that can be referred to by the control data creation unit 204 . The control data creation unit 204 may specify the controller 3n that controls the device 4n with reference to the correspondence table.

Assuming that the controller B is defined in the controller 3n that controls the device A, the control data creation unit 204 instructs the controller B to set "0:00 ON" , &Quot; 17:00 OFF ".

The control data creation unit 204 outputs the created control data to the transmission unit 205. [

The transmitting unit 205 transmits the control data created by the control data creating unit 204 in step ST806 to the corresponding controller 3n set in the control data (step ST807). Here, control data for setting the device A to "0:00 ON" and "17:00 OFF" is transmitted to the controller B.

In the controller 3n receiving the control data, the control of the device 4n in accordance with the control data is performed. That is, in this case, the controller B controls the device A to "ON", that is, to operate the device A at 0:00, and when 17:00, Quot ;, that is, stop control.

In this way, in the schedule control device 21, the facility management apparatus 1 receives the desired operation schedule regarding the device 4n in the facility from the user in the " operation schedule setting instruction function " Based on the operation schedule setting instruction information transmitted on the basis of the operation schedule setting instruction information of the device 4n, the operation state at the time of changing the date of the specified date on the device 4n is set and the operation schedule data with the operation schedule on the designated date is created.

The schedule control device 21 sets the same operating state as the last set operating state of the previous day when automatically setting the operating state at 0:00 of the designated date of the designated device 4n from the user, For example, by rewriting the " initial value of the control state " or by setting the operation state at the time of 0:00 on the second day when the user desires to continuously operate the device 4n with the same operation state over the date, It is possible to set a continuous operation schedule over a date without individually responding. That is, it is possible to omit setting of the individual operation state manually by the user. Further, the user does not have to set the operation schedule while paying attention to the " initial value of the control state ".

The schedule control device 21 also creates control data based on an operation schedule in which the operating state at the time of 0:00 is automatically set and transmits the created control data to the controller 3n, And controls the device 4n based on the control data.

Since the control data sets the operation schedule in units of one day, the control data conforms to the BACnet specification, and the content of the control data at 0:00, that is, the contents of the operation state is invalid, The device 4n is controlled by contents according to the control data without being rewritten to the " initial value of the control state "

The device 4n is controlled in accordance with the contents of the control schedule regardless of whether the controller 3n corresponds to the addenda a or the non-correspondence.

11 shows an example of the facility management system according to the first embodiment in which a schedule control device 21 (also shown in Fig. 11) mounted on the server 2, based on an operation schedule setting instruction from a user accepted by the facility management apparatus 1 11), control data is created based on the operation schedule data, and the controller 3n generates control data based on the operation schedule data, Represents an image of a flow for controlling the device 4n.

In the above description, when the schedule control device 21 receives the operation schedule setting instruction information from the facility management device 1, it generates the operation schedule data and creates the control data based on the operation schedule data And transmits it to the controller 3n.

In addition to the above operation, in the schedule control device 21, the control data creation section 204 refers to the schedule storage section 203 at a predetermined cycle to create control data, And transmits the created control data.

The controller 3n needs to retain the control data based on the same operation schedule as that stored in the schedule storage unit 203 in order to control the device 4n, The capacity of the information that can be held is small as compared with the schedule storage unit 203. [ That is, the controller 3n can hold only the control schedule for a certain period.

Thus, as described above, the control data creation section 204 creates the control data based on the operation schedule data stored in the schedule storage section 203 at a predetermined cycle, and transmits the control data to the corresponding controller 3n, So that the controller 3n can always hold the most recent control data for controlling the device 4n in the controller 3n.

Returning to the operation description of the facility management apparatus 1, the "operation schedule display function" of the facility management apparatus 1 will be described.

Fig. 12 is a flowchart for explaining the operation related to the " operation schedule display function " in the facility management apparatus 1 according to the first embodiment of the present invention.

The input reception unit 11 of the facility management apparatus 1 waits until the operation schedule display instruction is received ("NO" in step ST1201) and accepts the operation schedule display instruction ("YES" in step ST1201) , And outputs the operation schedule display instruction information based on the received operation schedule display instruction to the display control section 13. [

A user such as a facility manager operates an input device such as a mouse or a keyboard to give an operation schedule display screen start instruction. The input accepting unit 11 accepts the operation schedule display screen start instruction and outputs the received operation schedule display screen start instruction information to the display control unit 13. The display control unit 13 displays the operation schedule display screen And displays the operation schedule display screen on the display unit 14 based on the start instruction information.

The user can input the date and time of each device 4n in the facility by inputting the device 4n in the facility and the date to display the operation schedule on the input section displayed on the operation schedule display screen displayed on the display section 14, A display instruction of an operation schedule of a certain day is performed.

The input accepting unit 11 accepts the information of the equipment 4n in the facility and the date for displaying the operation schedule of the equipment 4n which the user wants to display the operation schedule inputted in step ST1201.

Then, the input reception unit 11 sets the information of the received device 4n and information in which the date information is combined as the operation schedule display instruction information.

Here, assuming that the user inputs an instruction to display the operation schedule of July 10, 2016, for example, the user inputs the information of the device A and the information of the device A on July 10, 2016 And outputs the combined information to the display control unit 13 as the operation schedule display instruction information.

Although it is assumed here that the user issues a display instruction of the operation schedule for one day, this is merely an example, and the user can also give a display instruction of the operation schedule for a plurality of days.

The display control unit 13 acquires the operation schedule display instruction information output from the input reception unit 11 and refers to the schedule storage unit 203 provided in the schedule control device 21 via the network to execute the operation schedule And creates display data based on the display instruction information (step ST1202). More specifically, the display control unit 13 acquires from the schedule storage unit 203 information on the operation schedule of the set date of the device 4n set in the operation schedule display instruction information, For display on the display unit 14 as an image.

10 is stored in the schedule storage unit 203, the display control unit 13 sets the operation schedule of the device A on July 10, 2016 as "0:00 ON ", and " 17:00 OFF ". At this time, the display control section 13 also acquires the information of the automatic setting flag.

Then, the display control unit 13 creates display data for displaying the data associated with the device 4n, the date, and the operation schedule to which the information of the automatic setting flag is assigned, as a video.

The display control unit 13 displays the operation schedule of the device 4n set in the operation schedule display instruction information on the basis of the display data so that the operation schedule of the device 4n , And causes the display unit 14 to display it (step ST1203).

13 is a diagram showing an example of a display screen of an operation schedule that the display control unit 13 displays on the display unit 14 as a video in the first embodiment.

As shown in Fig. 13, the information on the device 4n, the date information, and the operation schedule are displayed on the display unit 14 in correspondence with each other.

The operation schedule is displayed so that it is possible to know what operation state is set by the time. 13 shows an example in which the time zone and the operation state are displayed in the form of a bar graph with respect to the designated day of the device A, that is, July 10, 2016. Fig.

The display control unit 13 also displays a display indicating that the automatic setting flag is set, together with the driving state, with respect to the driving state in which 1 is set to the automatic setting flag. 13, " * " is added to the operation status " ON " in the range of 0:00 to 17:00 as an indication that the automatic setting flag is set.

The display control section 13 does not display "*" for the operation state in which the automatic setting flag is set to 0, that is, the initial value is set. As described above, the user can grasp whether or not it is the automatically set operating state according to whether or not " * " is added.

The operation schedule display screen shown in Fig. 13 is merely an example, and the display control unit 13 may display the operation schedule by another display method, or may display the operation schedule on the basis of the time It may be displayed so as to be able to know the operation state.

The display for recognizing that the automatic setting flag is set is not limited to " * ". For example, the display control unit 13 may display a display other than " * " The color of the graph to be displayed may be lightly or darkly displayed, or the character "ON" on the graph may be blinked. The display control section 13 may display the operating state so that the automatic setting flag is set, that is, the operating state automatically set by the schedule control device 21 is known.

In the facility management system corresponding to BACnet, as described above, the operation state set last at the previous day can not be handed over. When the date is changed, the operation state is cleared, do. In this case, the operation state at the time of 0:00 is not stored in the schedule storage unit 203, and when the control data for controlling the device 4n is transmitted from the server 2 to the controller 3n, 3n, the " initial value of the control state " is set by the schedule setting function of BACnet.

Therefore, in the general facility management apparatus 1, when the user has displayed the operation schedule, the operation state that is not stored can not be displayed (refer to Fig. 14).

On the other hand, in the facility management system according to the first embodiment, the schedule control device 21 on which the server 2 is mounted is provided with the operation state at the time of 0:00, I set it to automatic setting. Accordingly, as shown in Fig. 13, the operation state at the time of date change is displayed, and the user can not recognize the operation state because the operation state is not displayed.

In the facility management apparatus 1, information indicating that the automatic setting is automatically performed is given to the automatically set operation state in the schedule control device 21, and is stored in the schedule storage unit 203 , And the "operation schedule display function", a display indicating that the automatically set operation state exists is added, so that the user can not recognize the operation state in which the display is added, It can be easily grasped that it is set continuously.

In the facility management system according to the first embodiment, the communication protocol between the facility management apparatus 1, the server 2, the controller 3n, and the device 4n is BACnet However, the present invention is not limited to this, and the configuration of the schedule control device 21 on which the facility management apparatus 1 and the server 2 are mounted may be such that a communication protocol in which the control status of the apparatus is not taken over when the date is changed is applied It can be applied to all systems.

As described above, according to the first embodiment, in the facility management system in which the communication protocol in which the control state of the device is not taken over when the date is changed, such as BACnet, is applied as the communication protocol, It is possible to set a control schedule over a date without requiring an individual response work by a user such as a facility manager.

In addition, when the facility management apparatus 1 displays the set control schedule, the automatically set control state is displayed, and the user does not set the control state due to the fact that the control schedule is a date, There is no case in which the control state in the time zone in which the control state is not set can not be grasped.

In addition, since the automatically set control state in the facility management apparatus 1 is displayed in a state in which it can be known that the automatically set control state, the user can set the control state set last in the previous day It can be easily grasped that the same control state as that of FIG.

In addition, in the first place, understanding of the contents of BACnet or addendum itself is a great burden to the user. According to Embodiment 1, when the user wishes to set a control schedule that spans a date , The control state from the previous day is cleared and the initial value of the control state is set when the date of the current day is changed or the 0:00 of the second day corresponds to the latest a control state The control schedule is created or the control schedule is displayed even if the BACnet or the addendum a is not conscious of the BACnet or the addendum a, such that the knowledge is not automatically rewritten. Can be easily performed.

In addition, for example, when it is desired to perform the same control in the controller 3n corresponding to addend a and the controller 3n not corresponding to addend a, it is not necessary to separately set them separately, There is no need to double develop software for setting a control schedule, and the development cost can be reduced.

As described above, in the BACnet, for example, with respect to the two-day control schedule over the date, since the date is changed at 0:00 on the second day, the control state from the previous day is cleared, And is rewritten to the "initial value of the control state", but if it corresponds to the addend a, since the most recent control state is set in the "initial value of the control state", the end of the first day It is possible to automatically take over the set control state, and as a result, it becomes possible to create a control schedule that spans the date.

Therefore, at first glance, when all the devices 4n, 3n, etc. in the facility management system correspond to addenda a, a control schedule that takes a date is set by the conventional technique, As shown in Fig.

For example, when it is desired to set a date-based operation schedule in two days on the first day and the second day, the user selects "9:00 ON", " 17:00 OFF ".

In this case, in the server 2, that is, at the time of 0:00 on the second day in the schedule control device 21, the operation state is not set and is rewritten to the "initial value of the control state" , The rewritten " initial value of the control state " is " OFF ", which is the latest, that is, the last value of the first day. Therefore, when the user rewrites the " initial value of the control state " The operation schedule that passed the date to be "OFF" from 17:00 of the first day to 9:00 of the second day is carried out even if we do not perform individual correspondence such as setting the operation schedule to "OFF" So that it can be set.

However, in the addenda a, when the operation schedule is not set, the operation schedule is set by continuously updating the " initial value of the control state " to the " latest set value " .

For example, in the example described above, after 9:00 on the second day, control is turned ON on the basis of the set operation state until 17:00, and from 0:00 to 9:00 on the second day, 00, the operation state is cleared and the time period during which the operation state is not set is rewritten to the " ON state ", which is the latest state at that time, as the " initial value of the control state "

That is, if the present day is 12:00 on the second day, the operation state of 0:00 to 9:00 on the second day is rewritten to " ON ".

At this time, time is changed on facility management system, and it is assumed that it returned to 6:00 on the second day.

In this case, since the operating state of the second day from 0:00 to 9:00 is rewritten to "ON", the operating state at 6:00 on the second day is "ON", and the time and control schedule on the facility management system I will go back.

However, from the viewpoint of reproducing the state at retrospective time according to the original operation schedule, the operation state at 6:00 on the second day should be the last operation state " OFF " on the first day.

As described above, there is a problem that, in the case of addend a, for example, when the time is changed on the facility management system, the reproduction can not be performed according to the original control schedule.

On the other hand, in the schedule control device 21 according to the first embodiment, since the control state at the time of the day change is automatically set, the state in which the control state is not set is eliminated, and the state in which the control state is not set , It is possible to reproduce the state according to the set schedule even when the time has changed in the facility management system and changed without being rewritten to the " initial value of the control state ". That is, it is possible to solve the problem of addend a as described above.

Embodiment 2 Fig.

In the first embodiment, it is assumed that the control state set at the time of the date change on the day is set to a state in which the control state is cleared and not set, and the control state set last at the previous day is automatically set So that it is possible to set a control schedule over a date.

However, the user may wish to control the device 4n at the next day 0:00 in a control state different from the control state set last at the previous day.

In the second embodiment, when the control state at the time of 0:00 is set by the user, an embodiment in which the control state set last at the previous day is not automatically set will be described.

Since the configuration of the facility management system according to the second embodiment of the present invention is the same as that described with reference to Fig. 4 in the first embodiment, a duplicated description will be omitted.

The configuration of the facility management apparatus 1 according to the second embodiment of the present invention is the same as that described with reference to Fig. 5 in the first embodiment, so duplicated description will be omitted.

The operation of the facility management apparatus 1 according to the second embodiment is the same as that described with reference to Figs. 7 and 12 in the first embodiment, so duplicated description will be omitted.

16 is a configuration diagram of the schedule control device 21a according to the second embodiment of the present invention.

Also in this second embodiment, as an example, the schedule control device 21a controls the device 4n managed in the facility management system based on the operation schedule setting instruction information from the facility management device 1 as the central monitoring device, However, the present invention is not limited to this. In the facility management apparatus 1, for example, the setting temperature of the air conditioner, the valve opening, and the like, A setting instruction of a control schedule for controlling all the control states of all devices managed in the facility management system is issued and the schedule control device 21a can create control schedule data for controlling all the control states.

16, the same components as those of the schedule control device 21 described in the first embodiment with reference to Fig. 6 are denoted by the same reference numerals, and redundant description will be omitted.

The schedule control device 21a according to the second embodiment differs from the schedule control device 21 according to the first embodiment only in that the schedule data creation control part 202a further comprises a determination part 2023. [

The determination unit 2023 of the schedule data creation control unit 202a determines whether or not the operation state at the time point of 0:00 is set for the operation schedule setting instruction information output from the instruction information reception unit 201. [

The judging unit 2023 outputs to the state setting unit 2021 information on the judgment result of whether or not the operating state at the time of 0:00 is set.

The operation will be described.

Fig. 17 is a flowchart for explaining the operation of the schedule control device 21a according to the second embodiment of the present invention.

The instruction information receiving unit 201 waits until the operation schedule setting instruction information is received from the instruction information transmission unit 12 of the facility management apparatus 1 (in the case of "NO" in step ST1701), the operation schedule setting instruction information (YES in step ST1701), it outputs the received operation schedule setting instruction information to the determination section 2023 of the schedule data creation control section 202a. 8 is the same as step ST801 of Fig. 8 described in the first embodiment, and the output destination of the operation schedule setting instruction information is changed to the state setting section 2021 of the schedule data creation control section 202 in step ST801 of Fig. 8 ), The detailed description will be omitted because it differs only in that it is the determination unit 2023 in this step ST1701.

Here, for example, the user sets the driving state in which the operation is "ON" at 0:00 and the operation is "OFF" at 17:00 as the operation schedule of July 10, 2016 , The instruction information receiving unit 201 combines the information of the apparatus A, the information of July 10, 2016, and the information that sets the operation to ON at 0:00 and the operation to turn OFF at 17:00 As the operation schedule setting instruction information, and outputs the information to the determination section 2023. [

Also, in the second embodiment, for example, when the operation is turned " OFF " at 17:00, the operation continues to be in the " OFF " state on the same day until a new operation schedule is set do.

It is to be noted that, here, the user is instructed to set an operation schedule for one day, but this is merely an example, and the user may make an instruction to set the operation schedule for a plurality of days.

The determination unit 2023 of the schedule data creation control unit 202a determines whether or not the operation state at the time of changing the date of the device 4n on the date specified on the basis of the operation schedule setting instruction information output from the instruction information reception unit 201, That is, it is determined whether or not the operating state at the time of 0:00 is set (step ST1702).

If it is determined in step ST1702 that the operating state at the time of 0:00 is not set ("NO" in step ST1702), the state setting unit 2021 of the schedule data creation control unit 202a determines, The operation schedule setting instruction information is obtained from the operation schedule setting instruction information from the operation schedule setting instruction information 201 and the operation state at the time of changing the date on the designated date of the specified device 4n in the operation schedule setting instruction information, Is set as the operating state at the time of 0:00, which is the same as the operating state set last at the previous day (step ST1703). That is, the state setting unit 2021 sets the same operation state as the operation state set at the end of July 9, 2016 as the operation state at 0:00 of the apparatus A on July 10, 2016 . For example, when the operation schedule of device A on July 9, 2016 is "0:00 OFF", "9:00 ON", and "17:00 OFF", the last set operation state is "OFF" , The state setting section 2021 sets " OFF " as the operation state at 0:00 of the device A on Jul. 10,

The state setting unit 2021 outputs the set state information of the operation state at the time of 0:00 of the date to the schedule data creating unit 2022 of the schedule data creation control unit 202a. The operation of step ST1703 is the same as that of step ST802 of Fig. 8 described in the first embodiment, and thus a detailed description thereof will be omitted.

If it is determined in step ST1702 that the operating state at the time of 0:00 is set ("YES" in step ST1702), the process skips step ST1703 and proceeds to step ST1704.

Here, since the operation schedule for setting the operation to " ON " is set at 0:00 as the operation schedule of July 10, 2016, step ST1703 is skipped. That is, the driving state at the time of changing the date of July 10, 2016 is not rewritten to the driving state set last at the previous day.

The schedule data creation unit 2022 of the schedule data creation control unit 202a updates the operation schedule setting instruction information output by the instruction information receiving unit 201 in step ST1701 and the operation schedule setting instruction information that is set by the state setting unit 2021 in step ST1703 Based on the information of the operating state at the time of 0:00 of the date, the operation schedule data is created (step ST1704). In the second embodiment, in the step ST1704, when the information on the operating state at the time of 0:00 is output from the state setting unit 2021, the schedule data creating unit 2022 sets the operation state at the time of 0:00 And if the information of the operating state at the time of 0:00 is not output from the state setting unit 2021, the operating state at the time of 0:00 is set to the operating state setting unit 2021 according to the operation schedule setting instruction information output by the instruction information receiving unit 201 And creates the operation schedule data in which the operation schedule is set. Since the other operations are the same as those in step ST803 of Fig. 8 described in the first embodiment, the detailed description is omitted.

In this case, since the operation state setting processing (step ST1703) at the time of 0:00 by the state setting section 2021 is skipped, the schedule data creating section 2022 sets the operation schedule setting According to the instruction information, the operation schedule data is created. That is, in the operation schedule at the time of 0:00, the operation schedule data set by the user and in which the " ON "

If the state setting unit 2021 sets the operation state at the time of 0:00 at step ST1703 in the operation state at this step ST1704, the schedule data creation unit 2022 updates the operation state information Information of the automatic setting flag = 1 is given. The initial value of the automatic setting flag is set to zero.

As described above, here, in the operation state at the time of 0:00, the operation state of "ON" set by the user, that is, in accordance with the operation schedule setting instruction information is set, The automatic setting flag is set to the initial value.

The schedule data creation unit 2022 outputs the created operation schedule data information to the control data creation unit 204 (step ST1705). The concrete operation is the same as the step ST804 in Fig. 8 described in the first embodiment.

The schedule data creating unit 2022 stores the created operation schedule data in the schedule storing unit 203 (step ST1706). As a result, as shown in Fig. 18, the operation schedule of "0:00 ON" and "17:00 OFF" of July 10, 2016 is stored in the schedule storage unit 203 with respect to the device A. 0 " is not the operation state automatically set by the schedule control device 21a as the operation state specified by the user, the automatic setting flag is set to the initial value, that is, do.

The concrete operations of steps ST1707 and ST1708 are the same as those of step ST806 and step ST807 of Fig. 8 described in the first embodiment, respectively, and thus duplicated description will be omitted.

As described above, the schedule control device 21a receives the operation schedule setting instruction information regarding the desired operation schedule regarding the device 4n in the facility from the user, and outputs the operation schedule data to the schedule control device 21a on the basis of the received operation schedule setting instruction information And stores it in the schedule storage unit 203. At this time, in the schedule control device 21a, if the operation state at the time point 0:00 of the designated date of the device 4n specified by the operation schedule setting instruction information is not set, the operation state at the time of 0:00 is automatically set And if the operation state at the time of 0:00 at the designated date is set, the set operation state is set to the operation state at the time of 0:00.

When the operation state at the time of 0:00 is set, the operation state is not rewritten to the automatically set operation state. Therefore, when the user sets a desired operation schedule, the operation state is automatically continued It is possible to prevent the operation schedule from being overwritten.

If the content of the schedule storage unit 203 is as shown in Fig. 18, in the facility management apparatus 1, the input reception unit 11 receives, from the user, Upon reception of a display instruction of the 10-day operation schedule, the display control unit 13 causes the display unit 14 to display the screen shown in Fig. 19, for example. Since the operation schedule for setting the operation state from 0:00 to 17:00 to "ON" is the operation schedule set by the user, the automatic setting flag is set to 0, that is, the initial value, and "*" It is not.

The operation of displaying the display screen is the same as the operation of the " operation schedule display function " of the facility management apparatus 1 in the first embodiment, and a detailed description thereof will be omitted.

The configuration of the schedule management apparatus 21a on which the facility management apparatus 1 and the server 2 are installed according to the second embodiment is similar to that of the first embodiment except that a communication protocol It can be applied to all applicable systems.

As described above, according to the second embodiment, it is possible to control the device 4n in the facility in the facility management system to which the communication protocol such as BACnet, etc., With regard to the control schedule for the date, when the control state at the time of date change is set by the user at the time of setting the control schedule over the date, since the set control state is prioritized, It is possible to prevent the operation state from being overwritten with the operation state that continues automatically and to reflect the control schedule desired by the user.

The facility management apparatus 1 described in the first and second embodiments can be applied to a facility management apparatus as a central monitoring apparatus that manages all facilities such as buildings, factories, and plants. The schedule control devices 21 and 21a described in the first and second embodiments can be applied to a schedule control device that generates control information for managing all facilities such as buildings, factories, and plants.

Further, the present invention can be freely combined with each embodiment, or a modification of any constituent element of each embodiment, or omitting any constituent element in each embodiment within the scope of the invention.

1: facility management apparatus, 2, 102: server, 11: input reception unit, 12: instruction information transmission unit, 13: display control unit, 14: display unit, 21, 21a: schedule control device, 31, 32, 33, 3n, 103: A control data generation unit, a control data generation unit, a control data generation unit, and a control data generation unit. Transmitting unit, 2021: state setting unit, 2022: schedule data creating unit, 2023:

Claims (10)

1. A schedule control device for setting a control schedule for controlling a device managed in a facility management system to which a communication protocol that can not take over the control state of the device at the time of date change is applied,
An instruction information receiving unit for receiving control schedule setting instruction information for setting a control schedule of the device;
Wherein the control schedule setting instruction information received by the instruction information receiving unit includes a control schedule setting instruction for setting a control state of the device at the time of date change on the date specified on the control schedule setting instruction information, And a state setting unit for setting a state of the schedule. The information processing apparatus according to claim 1, further comprising a schedule data creating unit for creating control schedule data on a designated date by reflecting the control status at the time of changing the date set by the status setting unit in the control schedule set by the control schedule setting instruction information The schedule control apparatus comprising: The information processing apparatus according to claim 1, further comprising a judging section for judging whether or not the control state at the time of the date change is set with respect to the control schedule setting instruction information,
Wherein the state setting section does not set the control state at the time of the date change when the determination section determines that the control state at the time of the date change is set. The control system according to claim 2 or 3, further comprising: a control data creation unit for creating control data for controlling the apparatus based on the control schedule data created by the schedule data creation unit;
Further comprising: a transmission unit that transmits the control data created by the control data creation unit to a controller that controls the apparatus. A facility management system to which a communication protocol that can not take over the control status of a device when a date is changed is applied,
The schedule control device according to any one of claims 1 to 3,
An input accepting unit for accepting a control schedule display instruction for displaying a control schedule of the device;
And a display control unit that displays control schedule data based on the control state set by the schedule control device as a video based on the information on the control schedule display instruction. 6. The display device according to claim 5,
When the state setting section sets a control state that is the same as the control state set last in the previous day to the control state of the device at the time of date change on the date specified on the control schedule setting instruction information, And displays the control schedule data so that the control state at the time of the date change is set. 6. The display device according to claim 5,
When the state setting section sets a control state that is the same as the control state set last in the previous day to the control state of the device at the time of date change on the date specified on the control schedule setting instruction information, And displays the control schedule data by adding a symbol to the control state set by the facility management system. 6. The display device according to claim 5,
When the state setting section sets a control state that is the same as the control state set last in the previous day to the control state of the device at the time of date change on the date specified on the control schedule setting instruction information, The display control unit displays the control schedule data by changing the display density of the control state set by the control unit. 6. The display device according to claim 5,
When the state setting section sets a control state that is the same as the control state set last in the previous day to the control state of the device at the time of date change on the date specified on the control schedule setting instruction information, And displays the control schedule data by blinking the control state set by the control unit. A schedule control method by a schedule control device for setting a control schedule for controlling the equipment managed in a facility management system to which a communication protocol that can not take over the control state of the equipment at the time of date change is applied,
Receiving an instruction information receiving unit for receiving control schedule setting instruction information for setting a control schedule of the apparatus;
The state setting unit may set the control schedule setting instruction information received by the instruction information receiving unit to the control state of the device at the time of changing the date on the date specified in the control schedule setting instruction information, And setting the same control state.

Images