KR101598781B1 - Building equipment system and the cotroll methode - Google Patents

Abstract

The present invention can be applied to a building facility in order to easily maintain a constant size of a storage area in storing history data when a state value of a building facility changes with respect to an operation state of the building facility. And a facility control unit for transmitting the control command to the building facility, wherein the facility control unit executes a monitoring program to generate data for generating the history data when the state value of the building facility changes, And a controller for deleting previous history data stored in the storage area so that the size of the storage area is less than a second threshold value if the size of the storage area is greater than or equal to a first threshold value, to provide.

Building Facilities, Data, Storage Area

Description

The present invention relates to a building equipment system and a control method thereof,

The present invention relates to a building equipment system and a control method thereof, and more particularly, to a building equipment system and a control method thereof that can easily maintain the size of a storage area in storing history data when a state value change And a control method thereof.

Generally, a building facility system is composed of an office and a room in a building, and a plurality of building facilities such as a lighting device, a heating device, and a cooling device are installed.

Herein, the building facility system enables control of a plurality of building equipments by using a central control unit, thereby enabling efficient management control.

In this way, when the operating state of a plurality of building equipments is changed, the building equipments system generates and stores the history data and displays the screen based on the history data in the central control unit, .

In recent years, since the size of the storage area for storing the history data is limited in the building equipment system, studies are underway to organically manage the storage area as the number of data of the history data increases.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a building equipment system and a control method thereof that can easily maintain a size of a storage area in storing history data when a state value change occurs with respect to an operating state of a building equipment.

The building installation system of the present invention includes: a building facility; A central control unit for outputting a control command according to an operation of the building equipment, and a facility control unit for delivering the control command to the building facility, wherein the facility control unit executes a monitoring program, A storage unit for storing the history data in a set storage area, and a storage unit for storing previous history data stored in the storage area such that the size of the storage area is less than a second threshold value, As shown in FIG.

According to another aspect of the present invention, there is provided a method for controlling a building equipment system, comprising the steps of: monitoring the state value of the building equipment during operation of the building equipment, generating history data when the state value changes and storing the generated data in a storage area, And re-monitoring the state value of the building equipment after the checking step.

The building equipment system and the control method thereof according to the present invention store history data generated in a storage area allocated when a state value change occurs with respect to an operating state of a building equipment, check the size of the storage area, The number of data of the building data is sequentially deleted so as not to exceed the limit value, thereby improving the stability of the operation of the building equipment and preventing the omission of the history data.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a building installation system according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a system diagram showing a building equipment system according to a first embodiment of the present invention.

1, the building equipment system includes a building facility 1, a facility control unit 10 connected to the building facility 1 to sense and control the operation state of the building facility 1, a building facility 1, And a central control unit (20) for centrally controlling the vehicle.

Here, the building equipment 1 is not limited to an indoor unit, an outdoor unit, an illumination unit, a plurality of sensors, and the like, which are configured in a building.

The facility control unit 10 is connected to the building facility 1 through hardware connection, and DDC (Direct Digital Controller) and PLC (Progammable Logic Controller) are used.

Here, the PLC (Progammable Logic Controller) is a type that controls the building facility 1 by connecting to a control point. The DDC (Direct Digital Controller) is connected to the RS 485 based or Ethernet based And controls the building equipment (1).

The facility control unit 10 monitors the state value of the operation state of the building equipment 1 at predetermined time intervals and generates history data which is operation information of the building facility 1 when the state value change occurs and stores the generated history data in the allocated storage area do.

The facility control unit 10 checks the size of the storage area after storing the history data, sequentially deletes the history data so that the number of pieces of the history data stored in the storage area is not stored beyond the limit value, Keep the size of the area at a certain size.

The central control unit 20 centrally controls the operation of the building service 1 and the facility control unit 10. [ At this time, the central control unit 20 forms a screen on the basis of the history data stored in the storage area by the facility control unit 10.

Then, the central control unit 20 controls the operation by transmitting a control command to the facility control unit 10 and the building facility 1 in accordance with the command inputted by the manager.

This building installation system will be capable of RS 485 communication and other protocol communication between the building facility 1, the facility control unit 10 and the central control unit 20. [

Fig. 2 is a functional block diagram showing the building installation system shown in Fig. 1. Fig.

2, the building equipment system includes a building facility 1, a facility control unit 10 and a central control unit 20. [

Here, the building facility 1 includes a heating facility 2, a cooling facility 3, a lighting facility 4, a heating device 5, a cooling device 6, a lighting device 7 and a plurality of sensors 8, .

The facility control unit 10 includes a data generation unit 12 for executing a monitoring program to monitor the state value of the operation state of the building facility 1 and generating the history data when the state value change occurs, And a control unit 16 for monitoring the size of the storage area and controlling the building equipment 1 according to the control command transmitted from the control unit 28.

Here, the data generating unit 12 executes the monitoring program at predetermined time intervals to monitor the state value of the operating state of the building facility 1, so that the state of the building facility 1 at the time of occurrence of the state value change And generates the history data including the operation information.

The controller 16 determines the size of the storage area and sequentially deletes the stored previous history data.

That is, the controller 16 determines the size of the storage area as the number of data of the previous history data, and if the size of the storage area is greater than or equal to the first threshold, the controller 16 sequentially deletes the previous history data.

The control unit 16 terminates the deletion of the previous history data when the size of the storage area becomes less than the first threshold value or becomes less than the second threshold value.

The control unit 16 controls the storage unit 14 to transfer the history data stored in the storage area to the control unit 28. [

The central control unit 20 transmits control commands for controlling the operations of the building equipment 1 and the facility control unit 10. [

That is, the central control unit 20 includes an input unit 22 for inputting commands for operations of the building facility 1 and the facility control unit 10, a memory 24 for storing information on the building facility 1, A display unit 26 that implements a control screen for the facility 1 and the facility control unit 10 and a control unit that controls the operation of the building facility 1 and the facility control unit 10 in accordance with an instruction input from the input unit 22 And a control unit 28 for controlling the control command and the control screen to be implemented.

Here, the information on the building facility 1 is facility type information including the use of the building facility 1 and the facility control unit 10, and information on characteristics.

The control unit 28 controls the display unit 26 to embody the control screen indicating the operating state of the building equipment 1 based on the history data transmitted from the facility control unit 10. [

Here, the control unit 28 controls the operation of the building facility 1 by generating the control command in accordance with the command inputted to the input unit 22 by the manager.

3 is a flowchart illustrating an operation method of a building equipment system according to a first embodiment of the present invention.

FIG. 3 is described with reference to FIG.

Referring to FIG. 3, the building facility system monitors the building facility 1 at predetermined time intervals during operation of the building facility 1 to generate a state value of the building facility 1 (S100).

That is, the facility control unit 10 executes a monitoring program at predetermined time intervals to generate a state value of the building facility 1 in operation.

In other words, the data generating unit 12 executes the monitoring program and generates the data by converting the state value according to the operating state of the building equipment 1 in operation.

In operation S102, it is determined whether the state value has changed. When the state value is changed, the history data is generated. If the state value does not change, the operation returns to operation S100.

That is, the data generator 12 compares the state value with the previous state value to determine whether a change has occurred.

At this time, the data generator 12 generates the history data including the operation information of the building equipment 1 when it is determined that the state value change occurs.

The history data is stored in the set storage area (S106), and the number of data of the history data stored in the storage area is checked to check the size of the storage area (S108).

That is, the data generating unit 12 transfers the history data to the storage area set in the storage unit 14 and stores the history data.

At this time, the controller 16 checks the number of data for the history data and the previous history data stored in the storage area to check the size of the storage area.

(S110). If the number of data is greater than or equal to the first threshold, the number of data is deleted to be less than a second threshold (S112).

That is, the control unit 16 determines whether the number of data is equal to or greater than the first threshold value N, and sequentially deletes the previous history data so that the number of data is equal to or greater than the first threshold value N, .

The control unit 16 sequentially deletes the previous history data inputted first so that the number of rows of the data is reduced.

If the number of data is less than the first threshold or is less than the second threshold, the size of the storage area is checked (S100) (S114).

That is, when the number of data is less than the first and second threshold values (N, M), the control unit 16 completes the checking of the size of the storage area and re-monitors the state value of the building equipment 1 by the data generating unit 12 .

The building facility system according to the present invention monitors the operation state of the building equipment at predetermined time intervals and stores history data generated when an abnormality occurs in the operation state of the building equipment in the set storage area to be displayed on the central control unit, Since the previously stored history data is deleted for the reason that the size of the storage area is not infinite, data accumulation does not occur and the system operation is stabilized.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. It will be understood that the invention may be embodied in other forms without departing from the spirit or scope of the invention. Accordingly, modifications of the embodiments of the present invention will not depart from the scope of the present invention.

1 is a system diagram showing a building equipment system according to a first embodiment of the present invention.

Fig. 2 is a functional block diagram showing the building installation system shown in Fig. 1. Fig.

3 is a flowchart illustrating an operation method of a building equipment system according to a first embodiment of the present invention.

Claims (9)

Executing a monitoring program at predetermined time intervals during a building facility operation to generate a state value according to an operating state of the building facility; Comparing the generated state value with a previously generated state value to determine whether the state value has changed; Generating history data including operation information of the building equipment when it is determined that the state value has changed; Storing the history data in a set storage area; Checking the number of data of the history data stored in the storage area and previously stored history data; Determining whether the number of data is greater than a first threshold; Sequentially deleting previous history data stored before the history data until the data count becomes less than a second threshold value that is equal to or less than the first threshold value when the data count is determined to be equal to or greater than the first threshold value; Completing the checking of the storage area if the number of data is less than the first threshold or less than the second threshold; And Re-monitoring the state value of the building equipment; And a control system for controlling the building system. The method according to claim 1, Wherein the building facility includes a heating facility, a cooling facility, a lighting facility, a heating facility, a cooling facility, a lighting device, and a plurality of sensors. delete delete Building equipment; A central control unit for outputting a control command according to the operation of the building facility; And A facility control unit for transferring the control command to the building facility and detecting an operation state of the building facility; / RTI > The facility control unit includes: A monitoring program is executed at predetermined time intervals to generate a state value according to the operating state of the building equipment and to judge whether the state value is changed or not and to output history data including operation information of the building equipment when the state value changes A data generating unit generating the data; A storage unit for storing the history data in a set storage area; And The history data stored before the history data is sequentially updated until the number of data stored in the storage area exceeds a first threshold value until the number of data becomes less than a second threshold value below the first threshold value A control unit for deleting the input data; The system comprising: 6. The method of claim 5, The building system includes a heating system, a cooling system, a lighting system, a heating system, a cooling system, a lighting system, and a plurality of sensors. delete 6. The method of claim 5, The central control unit, An input unit for inputting a command for the operation of the building facility and the facility control unit; A memory for storing usage information and characteristic information of the building facility and the facility control unit; A display unit for implementing a control screen for the building facility and the facility control unit; And A control unit for generating a control command for controlling the operation of the building facility and the facility control unit according to the command input from the input unit and displaying a control screen indicating the operation state of the building facility on the basis of the history data stored in the storage area, To be implemented in the control unit; The system comprising: 6. The apparatus of claim 5, And terminates the deletion of the history data when the first threshold value is less than the first threshold value or less than the second threshold value.

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