KR101658092B1 - Building automation system, facilities control apparatus comprised therein and control method of the facilities control apparatus - Google Patents

Abstract

The present invention relates to a building automation system, a facility control device included therein, and a control method of the facility control device. More specifically, in order to improve the prior art, A building automation system in which communications between the first network and the second network can be easily established and the internal capacity and configuration of a device for controlling communication can be improved, a facility control device included therein, and a control device ≪ / RTI >

Description

TECHNICAL FIELD [0001] The present invention relates to a building automation system, a facility control apparatus, and a control method of a facility automation system, a facility automation system, a facility automation system,

The present invention relates to a building automation system, a facility control apparatus of a building automation system, and a control method of a facility control apparatus, and more particularly, A building automation system, a facility control apparatus of a building automation system, and a control method of a facility control apparatus.

Control devices such as PLC (Programmable Logic Controller) or DDC (Direct Digital Controller) are required to control the facilities and each facility in order to produce products at the factory or manage various facilities in buildings. In addition, various sensors and actuators must be connected to the input / output device in order for each device to operate normally.

In the conventional automation system, the sensors installed in the field are transmitted to the central control computer in a point-to-point manner, and the control signals generated by the control computer are also transmitted to the actuators on a one-to-one basis. In the case of a large-sized and complicated system, a large number of wires are connected to each other. Therefore, it takes a great deal of effort and cost to maintain and repair the system in the event of an error. There has been a problem that the entire system becomes inoperable.

However, in a distributed system, the controller processor and the input / output device are also connected to each other in a distributed manner. It was tied up with a single device and could only be connected one-to-one with sensors or actuators installed in the field.

In order to improve this, a field bus (input / output device), which is modified to be installed close to a sensor or an actuator, is provided on the field. The field bus dramatically simplifies wiring, effectively processes large amounts of data requiring rapid processing in process control and building control, and facilitates further configuration of field devices to provide flexibility in system configuration.

Recently, a fieldbus network used in a building automation system (a concept including a factory automation system, etc., which is not limited to an automation system but abbreviated as a building automation system in this specification) includes CAN, DeviceNet, Profibus, Interbus, LonWorks Among them, LonWorks can be easily connected to the Internet using OSI 7 layer, so that it can be monitored and controlled through the Internet. Therefore, it is widely used and its importance is gradually increasing.

FIG. 1 is a block diagram 1 showing a configuration of a building automation system 500. FIG.

2 is a configuration diagram 2 showing the configuration of the building automation system 500. [

1 and 2, the building automation system 500 includes at least one facility 10 and equipment 10 ', a facility control apparatus 100 for controlling the same, and a central control unit The communication is connected via the first network N1 including the device 200 and the second network N2 using the second protocol, and control is performed.

The at least one facility 10 may be various facilities used in a building, such as a HAVC (Heating, Ventilation, Air-Condition), an electric power, an illumination, an elevator system, It may be a means for central monitoring and / or control of at least one facility 10 and the facility control apparatus 100 for controlling the same.

In the building automation system 500, the central control unit 200 and the facility control unit 100 may be connected to the first network N1. At this time, It can be a LonWorks network.

In this case, some of the at least one facility 10 may be directly connected to the first network N1 by being able to communicate according to the first protocol used in the first network N1, The equipment performing communication according to the protocol can not be directly connected to the first network N1 and is indirectly connected to the first network N1 through a gateway.

That is, the gateway is a means for connecting networks (N1, N2) having different communication methods, and is conventionally included in the facility control apparatus 100 or in a configuration different from the facility control apparatus 100 And is connected to the at least one facility 10 at the front end of the facility control apparatus 100 to connect the first network N1 and the second network N2 to each other.

The conventional gateway for performing this function is configured as shown in FIG. 3 and FIG. 4 when used in the Lonworks. The conventional gateway connects the first network N1 and the second network N2 .

FIG. 3 is a configuration diagram 1 showing a configuration of a LON equipment functioning as a gateway in a conventional Lonworks.

FIG. 4 is a configuration diagram 2 showing the configuration of a LON equipment functioning as a gateway in the conventional Lonworks.

In the conventional Lonworks as shown in FIG. 3, the LON device functioning as a gateway has a unique program number called a program ID. The program ID is stored in the first network N1, 2 network (N2) in the MIP HEX file which is the build source of the firmware for establishing communication with each other.

When the connection between the first network N1 and the second network N2 is changed to change the firmware, for example, when the at least one facility 10 is added or removed, The changes were made in the device. After programming through an external device, that is, a separate generation program provided by an external device such as a Lon maker on the drawing, the compiled contents are transferred to a flash memory ).

However, when the connection between the first network N1 and the second network N2 is changed, there is a limitation in that the firmware can not be easily changed. Therefore, the conventional LON equipment can be utilized for the adaptation of the Lonworks environment There was a falling problem.

The LON device functioning as a gateway in the conventional Lonworks as shown in FIG. 4 has been proposed in order to solve such a problem. In the LON device, three program IDs are embedded in the flash memory of the LON device, By reading the ID, programming it, compiling and saving the changed firmware in the flash memory, the firmware was built.

However, the conventional LON device as shown in FIG. 4 has only three program IDs, and therefore there is a limit to the firmware change, and various connection changes between the first network N1 and the second network N2 The firmware can not be changed, and compatibility of various equipment according to various types, various manufacturers, and various functions can not be achieved.

In addition, since three program IDs are installed in the LON device, the capacity of the LON device has to be increased. In addition, the process of reading the three program IDs in the LON device and reading them into the flash memory, As a result, the LON equipment has increased in heat generation and power consumption, and design and fabrication have become difficult.

That is, in the conventional Lonworks, the LON equipment functioning as a gateway is restricted to three program IDs so that the firmware construction (generation) is restricted. Accordingly, the firmware construction according to the network change is also limited, It is difficult to apply various kinds of facilities, and the communication construction can not be made quickly due to the large number of processes performed in the LON equipment. Therefore, the internal configuration of the LON equipment becomes complicated and the capacity increases, making it difficult to design and manufacture .

Therefore, in order to improve the prior art, the present disclosure relates to a method and apparatus for transmitting firmware to an external device, A building automation system capable of improving the internal capacity and configuration of the apparatus, a facility control apparatus of the building automation system, and a control method of the facility control apparatus.

According to an aspect of the present invention, there is provided a facility control apparatus for a building automation system including a storage unit for storing firmware for establishing communication between a first network using a first protocol and a second network using a second protocol, Wherein the control unit is configured to receive an identification number based on the firmware from an external source, construct the firmware according to the identification number, store the firmware in the storage unit, control communication between the first network and the second network .

In one embodiment, the first network may be connected to a central control unit of the building automation system, and the second network may be connected to at least one facility to be controlled by the building automation system.

In one embodiment, the firmware may include a control application for the controlled object of the facility control device.

In one embodiment, the firmware may be constructed and compiled with a unique code combination according to the identification number.

In one embodiment, the identification number may be provided from a central control device that centrally controls the building automation system.

In one embodiment, the identification number is a unique number assigned to each of at least one control object of the facility control apparatus, and may be provided with 1 to 255 numbers.

In one embodiment, the control unit includes a plurality of codes as a source of the firmware construction, and the firmware can be constructed by combining the plurality of codes.

In one embodiment, the controller analyzes the identification number, determines a code combination of the firmware corresponding to the identification number, constructs the firmware by combining the plurality of codes according to the determined code combination, The firmware can be compiled and stored in the storage unit.

In one embodiment, when the communication connection between the first network and the second network is changed, the control unit re-constructs the firmware by retransmitting the identification number, and transmits the reconstructed firmware to the storage unit And update the firmware.

In one embodiment, the identification number may be transmitted to the controller by a transmission request of the controller when communication between the first network and the second network is established.

In one embodiment, the identification number may be transmitted to the controller by external recognition with the identification number when communication between the first network and the second network is established.

In one embodiment, the storage unit may include at least a storage device capable of writing data.

In one embodiment, the storage unit may further include a storage device in which data can not be written.

Meanwhile, the building automation system disclosed in the present specification is characterized in that, through a facility control apparatus and a facility control apparatus in which communication is performed between a first network using a first protocol and a second network using a second protocol, And a central control unit for controlling at least one facility connected to the second network, wherein the facility control apparatus comprises: a storage unit for storing firmware for establishing communication between the first network and the second network; Wherein the central control unit receives an identification number as a basis for establishing the firmware from the central control unit, constructs the firmware according to the identification number, stores the firmware in the storage unit, and communicates the communication between the first network and the second network As shown in FIG.

In one embodiment, the firmware may include a control application for the controlled object of the facility control device.

In one embodiment, the firmware may be constructed and compiled with a unique code combination according to the identification number.

In one embodiment, the identification number is a unique number assigned to each of at least one control object of the facility control apparatus, and may be provided with 1 to 255 numbers.

In one embodiment, the control unit includes a plurality of codes as a source of the firmware construction, and the firmware can be constructed by combining the plurality of codes.

In one embodiment, the controller analyzes the identification number, determines a code combination of the firmware corresponding to the identification number, constructs the firmware by combining the plurality of codes according to the determined code combination, The firmware can be compiled and stored in the storage unit.

In one embodiment, when the communication connection between the first network and the second network is changed, the control unit re-constructs the firmware by retransmitting the identification number, and transmits the reconstructed firmware to the storage unit And update the firmware.

In one embodiment, the identification number may be transmitted to the controller by a transmission request of the controller when communication between the first network and the second network is established.

In one embodiment, the identification number may be transmitted to the controller by external recognition with the identification number when communication between the first network and the second network is established.

In one embodiment, the storage unit may include at least a storage device capable of writing data.

In one embodiment, the storage unit may further include a storage device in which data can not be written.

According to another aspect of the present invention, there is provided a method of controlling a facility control apparatus included in a building automation system, the method comprising: a first network using a first protocol from outside; The method comprising the steps of: receiving an identification number as a basis for establishing firmware for establishing communication with each other; constructing and storing the firmware according to the identification number; and performing communication between the first network and the second network .

In one embodiment, the first network may be connected to a central control unit of the building automation system, and the second network may be connected to at least one facility to be controlled by the building automation system.

In one embodiment, the firmware may include a control application for the controlled object of the facility control device.

In one embodiment, the firmware may be constructed and compiled with a unique code combination according to the identification number.

In one embodiment, the identification number is a unique number assigned to each of at least one control object of the facility control apparatus, and may be provided with 1 to 255 numbers.

In one embodiment, the step of receiving the identification number may be received from a central control unit that centrally controls the building automation system.

In one embodiment, when the communication between the first network and the second network is connected, the step of receiving the identification number may request transmission of the identification number to the outside and receive the identification number.

In one embodiment, when the first network and the second network are connected to each other, the receiving of the identification number may receive the identification number by an external recognition with the identification number .

In one embodiment, the step of constructing and storing the firmware may construct the firmware by combining any one or more of a plurality of codes as a source of the firmware construction.

In one embodiment, the step of constructing and storing the firmware may include the steps of: analyzing the identification number to determine a code combination of firmware corresponding to the identification number; and determining, based on the determined code combination, The method may further include building the firmware by combining the above and compiling and storing the firmware.

In one embodiment, the method further comprises updating the firmware, wherein the updating of the firmware further comprises: receiving the identification number when the communication connection between the first network and the second network is changed; The firmware can be updated by repeating the step of constructing and storing the firmware.

The building automation system, the facility control device of the building automation system, and the control method of the facility control device disclosed in the present specification solve the limitations and problems of the prior art by receiving the identification number as the basis for building the firmware from the outside and building the firmware There is an effect that can be.

The building automation system, the facility control apparatus of the building automation system, and the control method of the facility control apparatus disclosed in the present specification may be configured such that the identification number serving as a basis for building the firmware is received from the outside, So that communication can be easily established.

The building automation system, the facility control apparatus of the building automation system, and the control method of the facility control apparatus disclosed in the present specification can be applied to communication with various types of facilities by receiving the identification number, There is an effect that can be made possible.

The building automation system, the facility control device of the building automation system, and the control method of the facility control device disclosed in the present specification can appropriately cope with various communication connection changes by receiving the identification number that is the basis for building the firmware from the outside and building the firmware There is an effect that can be done.

The building automation system, the facility control device of the building automation system, and the control method of the facility control device disclosed in the present specification can be implemented by installing the firmware in the form of firmware And the configuration can be improved.

The building automation system, the facility control apparatus of the building automation system, and the control method of the facility control apparatus disclosed in the present specification have an effect that the internal capacity and the configuration of the apparatus for controlling communication are improved, .

1 is a block diagram showing the construction of a building automation system 500;
2 is a block diagram showing the configuration of the building automation system 500;
FIG. 3 is a block diagram of a configuration of a conventional LON equipment that functions as a gateway in Lonworks.
4 is a block diagram showing the configuration of a LON equipment functioning as a gateway in the conventional Lonworks.
5 is a block diagram showing a configuration of a facility control apparatus of a building automation system disclosed in this specification;
6 is a configuration diagram showing a configuration according to an embodiment of the facility control apparatus of the building automation system disclosed in this specification;
FIG. 7 is an exemplary view showing a concrete application example of the facility control apparatus of the building automation system disclosed in this specification; FIG.
8 is a block diagram showing the configuration of a building automation system disclosed in this specification;
9 is a flowchart showing a procedure of a control method of a facility control apparatus of a building automation system disclosed in this specification.
10 is a flowchart showing a sequence according to an embodiment of a method of controlling a facility control apparatus of a building automation system disclosed in this specification;

The techniques disclosed in this specification can be applied to a facility control system or a facility control system for controlling equipment installed in a building, a facility control device included in the facility control system, and a central control device (or a central control server).

Here, the facility control system (or facility control system) may be a building automation system for controlling facilities disposed in buildings or buildings. In particular, the facility control system may be a building management system (BMS). That is, the building automation system can be applied to a concept including a factory automation system and the like, in particular, a building automation system for controlling facilities installed in a building in the present specification, without limiting the object to be applied in the automation system.

In addition, the facility control system may mean a building energy management system (BEMS) used to manage energy related to facilities installed in a building to maintain a pleasant indoor environment in the building while increasing energy performance .

 In addition, the technology disclosed in this specification can be applied to a facility control method for controlling facilities installed in a building, and it is also possible to provide a facility control system that provides a user interface (UI) for efficiently and conveniently controlling the facility Can be applied. In particular, the user interface may be provided by a specific equipment or device included in the facility control system, for example, a central control device (or a central control server).

It is noted that the technical terms used herein are used only to describe specific embodiments and are not intended to limit the scope of the technology disclosed herein. Also, the technical terms used herein should be interpreted as being generally understood by those skilled in the art to which the presently disclosed subject matter belongs, unless the context clearly dictates otherwise in this specification, Should not be construed in a broader sense, or interpreted in an oversimplified sense. In addition, when a technical term used in this specification is an erroneous technical term that does not accurately express the concept of the technology disclosed in this specification, it should be understood that technical terms which can be understood by a person skilled in the art are replaced. Also, the general terms used in the present specification should be interpreted in accordance with the predefined or prior context, and should not be construed as being excessively reduced in meaning.

Also, the singular forms "as used herein include plural referents unless the context clearly dictates otherwise. In this specification, the terms "comprising ", or" comprising "and the like should not be construed as necessarily including the various elements or steps described in the specification, Or may be further comprised of additional components or steps.

Furthermore, terms including ordinals such as first, second, etc. used in this specification can be used to describe various elements, but the elements should not be limited by the terms. The terms are used only for the purpose of distinguishing one component from another. For example, without departing from the scope of the present invention, the first component may be referred to as a second component, and similarly, the second component may also be referred to as a first component.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings, wherein like reference numerals denote like or similar elements, and redundant description thereof will be omitted.

Further, in the description of the technology disclosed in this specification, a detailed description of related arts will be omitted if it is determined that the gist of the technology disclosed in this specification may be obscured. In addition, it should be noted that the attached drawings are only for easy understanding of the concept of the technology disclosed in the present specification, and should not be construed as limiting the idea of the technology by the attached drawings.

Hereinafter, with reference to FIG. 5 to FIG. 8, a facility control apparatus and a building automation system of a building automation system disclosed in this specification will be described with reference to FIGS. 1 and 2.

5 is a block diagram showing the configuration of a facility control apparatus of the building automation system disclosed in this specification.

FIG. 6 is a configuration diagram showing a configuration according to an embodiment of the facility control apparatus of the building automation system disclosed in this specification.

7 is an exemplary view showing a concrete application example of the facility control apparatus of the building automation system disclosed in this specification.

8 is a block diagram showing a configuration of a building automation system disclosed in this specification.

First, a basic configuration and concept of a building automation system 500 including the facility control apparatus 100 will be described with reference to FIGS. 1 and 2. FIG.

The facility control apparatus 100 may be a facility control apparatus of the building automation system 500.

The building automation system 500 may refer to a system for controlling at least one facility installed in a building or a building.

The building automation system 500 may be configured as shown in FIG.

1, the building automation system 500 includes at least one facility 10 and at least one equipment 10 ', a facility control device 100 for controlling at least one facility 10' And a central control unit 200 for controlling the control unit 200.

That is, the building automation system 500 can control the at least one facility 10 and the at least one equipment 10 'installed in a building or a building through the facility control apparatus 100 have.

The facility control apparatus 100 may be controlled by the central control apparatus 200. [

The building automation system 500 may be constructed as shown in FIG.

2, the building automation system 500 includes at least one air conditioning equipment 11 to 15 corresponding to the at least one facility 10 and at least one air conditioning equipment 11 to 15 corresponding to the at least one equipment 10 ' At least one equipment unit 11'-13'is connected to the facility control apparatus 100 such that the facility control apparatus 100 is connected to the at least one air conditioning equipment 11-15 and the at least one remote control unit And a system configuration for controlling the equipment 11 'to 13'.

The building automation system 500 may further include a central control unit 200 for controlling the equipment 16 to correspond to the facility control unit 100 and the at least one facility 10, And a system configuration that is connected to the apparatus 200 to allow the central control apparatus 200 to control the facility control apparatus 100 and the apparatus 16.

That is, the facility control apparatus 100 is connected to the at least one facility 10 corresponding to the control object and the central control apparatus 200 corresponding to an upper control subject, and the at least one facility 10 ). ≪ / RTI >

The at least one air conditioning equipment 11 to 15, the at least one equipment unit 11 'to 13' and the equipment 16 shown in FIG. 2 are installed in the building automation system 500, The embodiments of the at least one facility 10 and the equipment 10 'are not limited thereto, and for the sake of convenience of explanation, The at least one facility 10 will be described as unified.

The building automation system 500 may be communicated over at least one network so that control over the at least one facility 10 may be made.

2, the first network N1 to which the central control apparatus 200 and the facility control apparatus 100 are connected and the first network N1 to which the facility control apparatus 100 and the at least one facility The communication of the building automation system 500 may be performed through the second network N2 to which the building automation system 10 is connected.

That is, the facility control apparatus 100 controls communication between the central control apparatus 200 and the at least one facility 10 through the first network N1 and the second network N2 .

Herein, the communication of the building automation system 500 means a wired or wireless communication connection in which information can be exchanged with each other. The communication between the facility control apparatus 100 and the central control system The control of the at least one facility 10 of the device 200 may be effected.

That is, the communication of the building automation system 500 may include the meaning of information exchange and control execution among each other.

The facility control apparatus 100 is connected to the central control apparatus 200 through the first network N1 and to the at least one facility 10 through the second network N2, And can communicate with the central control unit 200 and the at least one facility 10 via respective networks.

The first network N1 may use a first protocol and the second network N2 may be a network using a second protocol.

That is, the first network N1 and the second network N2 may communicate with each other using different protocols.

The central control apparatus 200 transmits a control command to the facility control apparatus 100 via the first network N1 to the at least one facility 10 connected to the second network N2 .

The central control unit 200 is also connected to the at least one facility 10 via the first network N1 with control instructions for the at least one facility 10 connected to the first network N1, As shown in FIG.

The central control apparatus 200 may also transmit a control command to the facility control apparatus 100 connected to the first network N1 via the first network N1 directly to the facility control apparatus 100 .

The at least one facility 10 transmits history information to be transmitted to the central control unit 10 connected to the first network N1 via the second network N2 to the facility control apparatus 100 .

The at least one facility 10 may also directly transmit information to be transmitted to the neighboring facility 10 connected to the second network N2 via the second network N2 directly to the neighboring facility 10 It is possible.

The at least one facility 10 may also be adapted to send information to be transmitted to the facility control device 100 connected to the second network N2 via the second network N2 directly to the facility control device 100, .

The facility control apparatus 100 may transmit information to be transmitted to the central control apparatus 200 connected to the first network N1 to the central control apparatus 200 through the first network N1 .

The facility control apparatus 100 may transmit information to be transmitted to the neighboring facility control apparatus 100 connected to the first network N1 to the neighboring facility control apparatus 100 through the first network N1 have.

The facility control apparatus 100 further comprises means for sending control instructions to the at least one facility 10 connected to the first network N1 via the first network N1 to the at least one facility 10. [ As shown in FIG.

The facility control apparatus 100 is also connected to the first network N1 received from the at least one facility 10 connected to the second network N2 via the first network N1 And may transmit the information to be transmitted to the central control unit 200 to the central control unit 200.

The facility control apparatus 100 is connected to the at least one facility 10 via the second network N2 with a control command for the at least one facility 10 connected to the second network N2 Lt; / RTI >

The facility control apparatus 100 may further include at least a first control unit 200 connected to the second network N2 received from the central control unit 200 connected to the first network N1 via the second network N2, A control command for one facility 10 may be transmitted to the at least one facility 10. [

That is, the facility control apparatus 100 may control communication between the first network N1 and the second network N2.

Communication between the first network N1 and the second network N2 may be performed through firmware that allows different protocols to be mutually applicable.

That is, the firmware may function to establish communication between the first network N1 and the second network N2.

The firmware may refer to a built-in program for establishing communication between the first network N1 and the second network N2.

The firmware may be constructed according to the connection of the first network N1 and the second network N2.

For example, the firmware may be constructed differently according to the type, function, manufacturer, and quantity of the at least one facility 10 connected to the second network N2.

Alternatively, the firmware may be constructed differently according to a model of the central control unit 200 connected to the first network N1, or a model of the facility control device 100. [

That is, the firmware is a built-in program specified according to the connection of the first network N1 and the second network N2, and is dependent on the connection of the first network N1 and the second network N2, .

According to this function, the firmware may be configured to communicate with the first network N1 and the second network N2, as well as to establish communication between the first network N1 and the second network N2, And a built-in program that performs a function that enables control interlocking between a device and a facility.

The equipment control apparatus 100 incorporates the firmware and can control communication between the first network N1 and the second network N2 through the firmware.

The basic configuration and concept of the building automation system 500 as described above are examples of the building automation system 500 and the configuration may be changed according to the embodiment to which the facility control apparatus 100 is applied The embodiments of the building automation system 500 and the facility control apparatus 100 are not limited thereto and may be variously configured.

Hereinafter, the facility control apparatus 100 disclosed in this specification will be described in detail.

The facility control apparatus 100 of the building automation system 500 may include a storage unit 110 and a control unit 120, as shown in FIG.

The storage unit 110 stores the firmware for establishing communication between the first network N1 using the first protocol and the second network N2 using the second protocol.

The control unit 120 receives an identification number serving as a basis for building the firmware from the external device 200 ', constructs the firmware according to the identification number, stores the firmware in the storage unit, And controls communication between the network (N1) and the second network (N2).

The storage unit 110 may refer to a storage device in which data of the facility control device 100 is stored.

The type of the storage device may be a RAM (Random Access Memory) or a flash memory, which may read the stored information and store other information.

The storage unit 110 may be preferably the flash memory.

The storage capacity of the storage unit 110 is not limited, but may be a capacity that facilitates storage and modification of the firmware.

The storage unit 110 stores the firmware and includes a driver capable of driving the facility control apparatus 100, an application for controlling the operation of the facility control apparatus 100, An operating program (software) and the like can be further stored.

That is, the storage unit 110 may store data related to the operation and operation of the facility control apparatus 100.

The storage unit 110 may store data related to the firmware and the facility control device 100 by the control unit 120. [

The control unit 120 may mean an MCU (Micro Controller Unit) that controls the operation and operation of the facility control apparatus 100.

The control unit 120 can manage data regarding the firmware and the facility control apparatus 100. [

For example, the firmware may be stored in the storage unit 110 or the firmware stored in the storage unit 110 may be read.

The control unit 120 controls the communication between the first network N1 and the second network N2 through the firmware and controls the control object of the equipment control apparatus 100 Can be performed.

The control unit 120 may construct the firmware according to the connection with the first network N1 and the second network N2.

That is, the controller 120 constructs the firmware according to the connection with the first network N1 and the second network N2, and transmits the firmware to the first network N1 and the second network N2 Lt; / RTI >

The controller 120 constructs the firmware according to the connection with the first network N1 and the second network N2 and receives the identification number from the external 200 ' .

That is, the identification number may refer to information that allows the firmware to be constructed according to the connection with the first network N1 and the second network N2.

The exterior 200 'may refer to an external device separate from the facility control apparatus 100 and configured separately.

The external device 200 'may be a driving device of the facility control device 100, which is separate from the facility control device 100 and is connected to the facility control device 100.

For example, the control device 100 may be coupled to the facility control device 100 or may be a device incorporated in the facility control device 100 to drive the facility control device 100.

The external 200 'may also be connected to any one of the first network N1 and the second network N2, preferably the central control unit 200 connected to the first network N1, ).

The central control unit 200 of the building automation system 500 is connected to the first network N1 and the central control unit 200 of the building automation system 500 is connected to the second network N2, The at least one facility 10 to be controlled by the facility control apparatus 100 may be connected.

The first network N1 and the second network N2 may be any one of Can, DeviceNet, Profibus, Interbus, and Lonworks, and may be preferably Lonworks.

That is, when the first network N1 and the second network N2 are the Lonworks network, the facility control apparatus 100 may perform the function of the Lon device enabling the Lonworks communication.

That is, the facility control apparatus 100 can control communication by establishing the Lonworks communication between the first network N1 and the second network N2 through the firmware.

The firmware may include a control application for the controlled object of the facility control device 10. [

The control application may refer to a program capable of performing control over each of the at least one facility (10).

That is, the control unit 120 may control the at least one facility 10 through the control application included in the firmware.

The control application may be a program in which a control command is selected and transmitted to each of the at least one facility (10), control is performed, and the like.

The control application may be constructed according to the firmware.

That is, since the firmware is built according to the at least one facility 10, the control application can also be built according to the at least one facility 10. [

The control unit 120 establishes communication between the first network N1 and the second network N2 through the firmware and transmits the firmware to the at least one facility 10 ≪ / RTI >

The controller 120 constructs the firmware with a plurality of code combinations constituting the firmware according to the identification number transmitted from the external 200 ', compiles the code combination, Lt; / RTI >

The firmware may be constructed and compiled with a unique code combination according to the identification number.

That is, the identification number may refer to code combination information or command for causing the firmware to be constructed with a unique code combination.

The identification number may be a unique number assigned to each control target of the facility control apparatus 100. [

That is, the identification number is a unique number assigned to each of the at least one facility 10 to be controlled by the facility control apparatus 100, Firmware can be made to be built.

The identification number may be 1 to 255 numbers.

That is, the external 200 'transmitting the identification number has 1 to 255 identification numbers, and the control unit 120 controls the firmware to be transmitted in a maximum of 255 code combinations according to the identification number. Can be built.

When the building automation system 500 is configured as Lonworks, the identification number may preferably mean a program ID as a basis for the program configuration.

The control unit 120 may include a plurality of codes as a source of the firmware construction.

The plurality of codes may mean a plurality of codes for constructing the firmware.

The plurality of codes may also refer to a firmware generation program in which the firmware is built or a code included in the firmware generation program.

The plurality of codes may be composed of codes constituting a software program, preferably hexadecimal HEX codes.

The plurality of codes can be combined according to the code combination information according to the identified information and the identification number, which is a command, to be controlled by the facility control device 100. [

The plurality of codes may be combined with the identification code and built with the firmware.

That is, the plurality of codes is a plurality of codes constituting the firmware, the identification number is code combination information and command according to the control object of the facility control apparatus 100, and the firmware includes the plurality of codes And the like.

The control unit 120 analyzes the identification number to determine a code combination of the firmware corresponding to the identification number, constructs the firmware by combining the plurality of codes according to the determined code combination, And store it in the storage unit 110.

The control unit 120 analyzes the identification number to determine a code combination of the firmware corresponding to the identification number, constructs the firmware by combining the plurality of codes according to the determined code combination, And stores the generated firmware in the storage unit 110 and controls communication between the first network N1 and the second network N2 through the firmware stored in the storage unit 110. [

That is, the controller 120 constructs the firmware based on the identification number received from the external 200 ', stores the firmware in the storage unit 110, and stores the firmware in the storage unit 110 Communication between the first network N1 and the second network N2 is initiated through the stored firmware so as to control the at least one facility 10 to be controlled.

If the communication connection between the first network N1 and the second network N2 is changed, the control unit 120 re-constructs the firmware by retransmitting the identification number, And store the firmware in the storage unit 110 to update the firmware.

That is, when the communication connection between the first network N1 and the second network N2 is changed, communication is controlled by the firmware in which the changed communication connection is reflected. Therefore, the controller 120 reestablishes the firmware .

For example, if the at least one facility 10 connected to the second network N2 is added or removed, the identification number for the changed communication connection is re-transmitted from the external 200 ' And the firmware can be updated by storing the reconstructed firmware in the storage unit 110.

The facility control apparatus 100 as described above constructs the firmware when communication between the first network N1 and the second network N2 is established and controls the first network N1 and the second network N2, It is possible to control communication between the second networks N2.

That is, the establishment of the firmware may be performed by receiving the identification number from the external 200 'when communication between the first network N1 and the second network N2 is established .

When the communication between the first network N1 and the second network N2 is established, the identification number is transmitted from the outside 200 'to the controller 120 Lt; / RTI >

That is, when communication is established between the first network N1 and the second network N2, the controller 120 requests the external 200 'to transmit the identification number, 200 'transmits the identification number corresponding to the transmission destination among the identification numbers to the controller 120, so that the firmware can be constructed.

When the communication between the first network N1 and the second network N2 is connected, the identification number is transmitted to the control unit by recognizing the external 200 'having the identification number .

That is, when communication is established between the first network N1 and the second network N2, the external 200 'selects an identification number corresponding to the transmission object among the identification numbers, And transmits the identification number to the control unit 120, so that the firmware can be constructed.

The facility control apparatus 100 as described above can also be implemented in the embodiment as shown in Fig.

6, the facility control apparatus 100 includes a storage unit 110 including a first storage device 111 and a second storage device 112, a first control unit 121, 2 control unit 122. The control unit 120 includes a control unit 120,

The first storage device 111 may be a storage device capable of writing data.

For example, RAM or flash memory.

The second storage device 112 may be a storage device in which data can not be written.

For example, it can be ROM.

The first storage device 111 may be a storage device in which the firmware is stored.

The second storage device 112 may be a self-running program of the facility control apparatus 100 or a storage device in which a driver is stored.

That is, in the first storage device 111 in which data can be written, the firmware that needs to be updated can be stored and the firmware can be updated, and in the second storage device 112 in which data can not be written , A self-driving program or a driver of the facility control apparatus 100 which does not require updating is stored, and the self-driving program or the driver can be permanently stored.

The first control unit 121 may be a control unit for controlling communication between the first network N1 and the second network N2.

For example, the facility control apparatus 100 may be an interface control unit for exchanging information and commands between the first network N1 and the second network N2, and the facility control apparatus 100 may function as a lone apparatus of the Lonworks , It may preferably be a neuron chip.

The second control unit 122 receives the identification number, constructs the firmware, stores the firmware in the storage unit 110, and controls the at least one facility 10 to be controlled through the firmware As shown in FIG.

For example, it is possible to control the operation and operation of the facility control apparatus 100, construct and store the firmware according to the identification number, and transmit the firmware to the at least one facility 10 via the firmware or the control application And may be a microprocessor controller, if the facility control apparatus 100 functions as a loner apparatus of the Lonwroks.

The facility control apparatus 100 according to the embodiment as shown in Fig. 6 may be applied to the Ron apparatus as shown in Fig.

7, the facility control apparatus 100 may include a flash memory (not shown) on the storage unit 110, a NEURON CHIP (not shown) on the drawing, the first control unit 121, , The second control unit 122 may correspond to MPC 5666G (not shown), the plurality of codes may correspond to a MIP HEX FILE in the drawing, and the external unit 200 'may correspond to a LON INSTALLER in the drawing. Receives the identification number from the LON INSTALLER corresponding to the external device 200 ', constructs the firmware by the MPC 5666G through the identification number, stores the constructed firmware in the FLASH MEMORY, And can control communication between the first network N1 and the second network N2 through the stored firmware.

Hereinafter, the building automation system 500 disclosed in this specification will be described in detail.

The building automation system 500 includes the facility control apparatus 100 described above.

8, the building automation system 500 includes a first network N1 using a first protocol and a second network N2 using a second protocol, And a central control device (200) for controlling at least one facility connected to the first network (N1) and the second network (N2) through the control device (100) and the facility control device (100) The facility control apparatus 100 includes a storage unit 110 for storing firmware for establishing communication between the first network N1 and the second network N2, And stores the firmware in the storage unit 110 according to the identification number, and controls communication between the first network and the second network according to the firmwareAnd a fisherman 120.

The storage unit 110 may refer to a storage device in which data of the facility control device 100 is stored.

The type of the storage device may be a RAM (Random Access Memory) or a flash memory, which may read the stored information and store other information.

The storage unit 110 may be preferably the flash memory.

The storage capacity of the storage unit 110 is not limited, but may be a capacity that facilitates storage and modification of the firmware.

The storage unit 110 stores the firmware and includes a driver capable of driving the facility control apparatus 100, an application for controlling the operation of the facility control apparatus 100, An operating program (software) and the like can be further stored.

The storage unit 110 may store data related to the firmware and the facility control device 100 by the control unit 120. [

The control unit 120 may mean an MCU (Micro Controller Unit) that controls the operation and operation of the facility control apparatus 100.

The control unit 120 can manage data regarding the firmware and the facility control apparatus 100. [

The control unit 120 controls the communication between the first network N1 and the second network N2 through the firmware and controls the control object of the equipment control apparatus 100 Can be performed.

The control unit 120 may construct the firmware according to the connection with the first network N1 and the second network N2.

The control unit 120 constructs the firmware according to the connection with the first network N1 and the second network N2 and receives the identification number from the central control unit 200, can do.

The central control device 200 may have a configuration separate from the facility control device 100 and may be a device for centrally controlling the facility control device 100.

In the building automation system 500 having the above-described configuration, the first network N1 is connected to the central control device 200 and the facility control device 100, The facility control apparatus 100 and the at least one facility 10 to be controlled by the facility control apparatus 100 may be connected.

The first network N1 and the second network N2 may be any one of Can, DeviceNet, Profibus, Interbus, and Lonworks, and may be preferably Lonworks.

That is, when the first network N1 and the second network N2 are the Lonworks network, the facility control apparatus 100 may perform the function of the Lon device enabling the Lonworks communication.

The firmware may include a control application for the controlled object of the facility control device 10. [

The control application may refer to a program capable of performing control over each of the at least one facility (10).

The control application may be a program in which a control command is selected and transmitted to each of the at least one facility (10), control is performed, and the like.

The control application may be constructed according to the firmware.

The control unit 120 establishes communication between the first network N1 and the second network N2 through the firmware and transmits the firmware to the at least one facility 10 ≪ / RTI >

The controller 120 constructs the firmware with a plurality of code combinations constituting the firmware according to the identification number transmitted from the external 200 ', compiles the code combination, Lt; / RTI >

The firmware may be constructed and compiled with a unique code combination according to the identification number.

That is, the identification number may refer to code combination information or command for causing the firmware to be constructed with a unique code combination.

The identification number may be a unique number assigned to each control target of the facility control apparatus 100. [

That is, the identification number is a unique number assigned to each of the at least one facility 10 to be controlled by the facility control apparatus 100, Firmware can be made to be built.

The identification number may be 1 to 255 numbers.

That is, the central control unit 200 transmitting the identification number has 1 to 255 identification numbers, and the control unit 120 may control the firmware . ≪ / RTI >

When the building automation system 500 is configured as Lonworks, the identification number may preferably mean a program ID as a basis for the program configuration.

The control unit 120 may include a plurality of codes as a source of the firmware construction.

The plurality of codes may mean a plurality of codes for constructing the firmware.

The plurality of codes may also refer to a firmware generation program in which the firmware is built or a code included in the firmware generation program.

The plurality of codes may be composed of codes constituting a software program, preferably hexadecimal HEX codes.

The plurality of codes can be combined according to the code combination information according to the identified information and the identification number, which is a command, to be controlled by the facility control device 100. [

The plurality of codes may be combined with the identification code and built with the firmware.

That is, the plurality of codes is a plurality of codes constituting the firmware, the identification number is code combination information and command according to the control object of the facility control apparatus 100, and the firmware includes the plurality of codes And the like.

The control unit 120 analyzes the identification number to determine a code combination of the firmware corresponding to the identification number, constructs the firmware by combining the plurality of codes according to the determined code combination, And store it in the storage unit 110.

The control unit 120 analyzes the identification number to determine a code combination of the firmware corresponding to the identification number, constructs the firmware by combining the plurality of codes according to the determined code combination, And stores the generated firmware in the storage unit 110 and controls communication between the first network N1 and the second network N2 through the firmware stored in the storage unit 110. [

That is, the control unit 120 constructs the firmware based on the identification number received from the central control unit 200, stores the firmware in the storage unit 110, Communication between the first network N1 and the second network N2 may be initiated through the firmware stored in the first network N1 to control the at least one facility 10 to be controlled.

If the communication connection between the first network N1 and the second network N2 is changed, the control unit 120 re-constructs the firmware by retransmitting the identification number, And store the firmware in the storage unit 110 to update the firmware.

That is, when the communication connection between the first network N1 and the second network N2 is changed, communication is controlled by the firmware in which the changed communication connection is reflected. Therefore, the controller 120 reestablishes the firmware .

When the communication between the first network N1 and the second network N2 is established, the control unit 120 of the facility control apparatus 100 transmits the control information The firmware may be constructed to control communication between the first network N1 and the second network N2.

That is, when the communication between the first network N1 and the second network N2 is established, the facility control apparatus 100 transmits the identification number < RTI ID = 0.0 > As shown in FIG.

The identification number is transmitted from the central control unit 200 to the control unit 200 in response to a transmission request from the control unit 120 when communication between the first network N1 and the second network N2 is established, 120, < / RTI >

That is, when communication is established between the first network N1 and the second network N2, the control unit 120 requests the central control unit 200 to transmit the identification number, The control device 200 transmits the identification number corresponding to the transmission destination among the identification numbers to the controller 120, so that the firmware can be constructed.

When the communication between the first network N1 and the second network N2 is established, the identification number is transmitted to the control unit by recognizing the central control unit 200 having the identification number .

That is, when communication is established between the first network N1 and the second network N2, the central control unit 200 selects an identification number corresponding to the transmission object among the identification numbers, And transmits the identification number to the control unit 120, so that the firmware can be constructed.

Hereinafter, a control method of the facility control apparatus of the building automation system disclosed in this specification will be described with reference to FIG. 9 and FIG.

9 is a flowchart showing a procedure of a control method of the facility control apparatus of the building automation system disclosed in this specification.

10 is a flowchart showing a procedure according to an embodiment of a method of controlling a facility control apparatus of a building automation system disclosed in this specification.

The control method may be a facility control device of the building automation system and a control method of the building automation system.

The control method may be implemented by being applied to a facility control device and a building automation system of the above-described building automation system.

That is, the facility control device and the building automation system of the above-described building automation system can establish communication according to the control method.

As shown in FIG. 9, the control method of the equipment control apparatus of the building automation system includes a method of controlling the first network using the first protocol and the second network using the second protocol, (S10) receiving an identification number as a basis for establishing, constructing and storing the firmware according to the identification number (S20), and controlling communication between the first network and the second network according to the stored firmware (S30).

The first network may be connected to a central control unit of the building automation system, and the second network may be connected to at least one facility to be controlled by the building automation system.

The first network and the second network may be any one of Can, DeviceNet, Profibus, Interbus, and Lonworks, and may preferably be Lonworks.

The firmware may include a control application for a control target of the facility control device.

The firmware may be constructed and compiled with a unique code combination according to the identification number.

That is, the identification number may refer to code combination information or command for causing the firmware to be constructed with a unique code combination.

The identification number is a unique number assigned to each of at least one control object of the facility control apparatus, and may be provided with 1 to 255 numbers.

The facility control device may include a plurality of codes as a source of the firmware construction.

The plurality of codes may mean a plurality of codes for constructing the firmware.

The plurality of codes may also refer to a firmware generation program in which the firmware is built or a code included in the firmware generation program.

The plurality of codes may be composed of codes constituting a software program, preferably hexadecimal HEX codes.

The plurality of codes may be combined according to the code combination information according to the identified information and the identification number, which is a command, to be controlled by the facility control device.

The plurality of codes may be combined with the identification code and built with the firmware.

The step of receiving the identification number (S10) may be received from a central control unit for centrally controlling the building automation system.

The step (S10) of receiving the identification number may include receiving the identification number by requesting transmission of the identification number to the outside when communication between the first network and the second network is established.

The receiving of the identification number (S10) may receive the identification number by an external recognition with the identification number when communication between the first network and the second network is established.

The step of constructing and storing the firmware (S20) can build and store the firmware based on the identification number received in the step of receiving the identification number (S10).

The step of constructing and storing the firmware (S20) may construct the firmware by combining any one or more of a plurality of codes as a source of the firmware construction.

The step of constructing and storing the firmware (S20) includes the steps of: (S21) judging a code combination of the firmware corresponding to the identification number by analyzing the identification number as shown in FIG. 10, (S22) of building the firmware by combining any one or more of the plurality of codes according to the firmware code, and compiling and storing the firmware (S23).

The control method may further include a step (S40) of updating the firmware.

The step of updating the firmware (S40) may be performed after the storing step (S20) of building the firmware, or after the step (S30) of controlling communication between the first network and the second network have.

The step (S40) of updating the firmware repeats the steps of receiving the identification number and constructing and storing the firmware when the communication connection between the first network and the second network is changed, The firmware can be updated.

That is, when the communication connection between the first network and the second network is changed, the communication is controlled by the firmware in which the changed communication connection is reflected. Therefore, in the step of updating the firmware (S40) (S10) and storing the firmware (S20), and updating the firmware by rebuilding the firmware.

Embodiments of the building automation system, the facility control apparatus of the building automation system, and the control method of the facility control apparatus disclosed in the present specification may be applied to a facility control system or a facility control system for controlling equipment installed in a building, The facility control device and the central control device (or the central control server).

Embodiments of the building automation system, the facility control apparatus of the building automation system, and the control method of the facility control apparatus disclosed in the present specification can be applied to a factory automation system, a plant system, an energy management system, a power management system, The present invention can also be applied to a communication apparatus, a communication facility, and a communication method.

The embodiments of the building automation system, the facility control apparatus of the building automation system, and the control method of the facility control apparatus disclosed in the present specification are useful not only in a gateway, a communication system, and a communication method for interworking networks using different protocols Can be applied.

The building automation system, the facility control apparatus of the building automation system, and the control method of the facility control apparatus disclosed in the present specification may be configured such that the identification number serving as a basis for building the firmware is received from the outside, So that communication can be easily established.

The building automation system, the facility control apparatus of the building automation system, and the control method of the facility control apparatus disclosed in the present specification can be applied to communication with various types of facilities by receiving the identification number, There is an effect that can be made possible.

The building automation system, the facility control device of the building automation system, and the control method of the facility control device disclosed in the present specification can appropriately cope with various communication connection changes by receiving the identification number that is the basis for building the firmware from the outside and building the firmware There is an effect that can be done.

The building automation system, the facility control device of the building automation system, and the control method of the facility control device disclosed in the present specification can be implemented by installing the firmware in the form of firmware And the configuration can be improved.

The building automation system, the facility control apparatus of the building automation system, and the control method of the facility control apparatus disclosed in the present specification have an effect that the internal capacity and the configuration of the apparatus for controlling communication are improved, .

It will be apparent to those skilled in the art that various modifications and changes can be made in the present invention without departing from the spirit or scope of the present invention as defined by the appended claims. And such modifications and the like should be considered to fall within the scope of the following claims.

N1: first network N2: second network
10: Equipment 10 ': Equipment
11 to 16: Equipment example (air conditioner) 11 'to 13': Equipment example (remote controller)
100: facility control device 110:
111: first storage device 112: second storage device
120: control unit 121: first storage unit
122: second storage unit 200: central control unit
200 ': External (device) 500: Building automation system

Claims (22)

A facility control apparatus for a building automation system,
A storage unit for storing firmware for establishing communication between a first network using a first protocol and a second network using a second protocol; And
The method comprising the steps of: receiving an identification number as an establishment basis of the firmware from outside; constructing the firmware according to the identification number, storing the firmware in the storage unit, controlling communication between the first network and the second network And a controller
Wherein,
And a plurality of codes as a build source of the firmware,
Determines the code combination of the firmware corresponding to the identification number by analyzing the identification number, constructs the firmware by combining the plurality of codes according to the determined code combination, compiles the firmware, and stores the compiled firmware in the storage unit And a control unit for controlling the facility. The method according to claim 1,
Wherein the first network comprises:
A central control device of the building automation system is connected,
The second network comprising:
Wherein at least one facility to be controlled by the facility control apparatus is connected. The method according to claim 1,
The firmware,
And a control application for the controlled object of the facility control device. The method according to claim 1,
The firmware,
And a unique code combination according to the identification number is constructed and compiled. The method according to claim 1,
The identification number,
And a central control unit for centrally controlling the building automation system. The method according to claim 1,
The identification number,
A unique number assigned to each of at least one control target of the facility control apparatus,
1 to 255 numbers are provided. delete delete The method according to claim 1,
Wherein,
When the communication connection between the first network and the second network is changed,
Wherein the firmware is re-transmitted by retransmitting the identification number, and the firmware is updated by storing the reconstructed firmware in the storage unit. 10. The method according to any one of claims 1 to 6 and 9,
The identification number,
When communication between the first network and the second network is established,
Wherein the control unit transmits the request to the control unit in response to a request from the control unit. 10. The method according to any one of claims 1 to 6 and 9,
The identification number,
When communication between the first network and the second network is established,
Wherein the identification number is transmitted to the control unit by external recognition provided with the identification number. In a building automation system,
A facility control device in which communication is established between a first network using a first protocol and a second network using a second protocol; And
And a central control device for controlling at least one facility connected to the first network and the second network through the facility control device,
The facility control device includes:
A storage unit for storing firmware for establishing communication between the first network and the second network; And
Wherein the central control unit receives an identification number as a basis for building the firmware from the central control unit, constructs the firmware according to the identification number, stores the firmware in the storage unit, And a control unit for controlling communication,
Wherein,
And a plurality of codes as a build source of the firmware,
Determining the code combination of the firmware corresponding to the identification number by analyzing the identification number, constructing the firmware by combining the plurality of codes according to the determined code combination, compiling the firmware, and storing And the building automation system. 13. The method of claim 12,
The firmware,
And a control application for the controlled object of the facility control device. 13. The method of claim 12,
The firmware,
And a unique code combination according to the identification number is constructed and compiled. 13. The method of claim 12,
The identification number,
A unique number assigned to each of at least one control target of the facility control apparatus,
And a number of 1 to 255 numbers. delete delete 13. The method of claim 12,
Wherein,
When the communication connection between the first network and the second network is changed,
And the firmware is re-constructed by retransmitting the identification number, and the reconstructed firmware is stored in the storage unit to update the firmware. A method of controlling a facility control device included in a building automation system,
Receiving an identification number that is a basis for building firmware for establishing communication between a first network using a first protocol and a second network using a second protocol from outside;
Constructing and storing the firmware according to the identification number; And
And controlling communication between the first network and the second network according to the stored firmware,
The step of constructing and storing the firmware includes:
Analyzing the identification number and determining a code combination of the firmware corresponding to the identification number;
Constructing the firmware by combining any one or more of a plurality of codes to be a build source of the firmware according to the determined code combination; And
And compiling and storing the firmware. delete delete 20. The method of claim 19,
Further comprising updating the firmware,
Wherein updating the firmware further comprises:
When the communication connection between the first network and the second network is changed, repeating the steps of receiving the identification number and building and storing the firmware to update the firmware.

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