KR20200091267A - Building automation system using virtual server - Google Patents

Abstract

The present invention relates to a building automation system using a virtual server. A building control automation system includes a client computer (PC) having a control process providing a facility operation manager with a facility monitoring and control environment and an operation server performing integrated management of control information and state information on multiple intra-building facilities. The operation server is configured such that virtual building automation system (BAS) servers are connected in a virtual network and have individual operating systems. The BAS servers are configured such that one virtual BAS server is generated whenever one intra-building group is generated and a field control device in one group is independently connected. Each field control device (direct digital controller (DDC)) in the building is connected to the virtual network in a network environment to transmit and receive the facility monitoring and control environment. The field control device included in one group is concentrated on an Internet connection protocol device to be connected to one of the virtual BAC servers. Subsequently, data for the facility monitoring and control environment in the group is transmitted to and received from the virtual BAC server by the connection protocol. Each of the field control devices (DDCs) is configured to be independently connected to the virtual BAS server and perform data exchange by integrated transmission to the operation server via an Internet network configured in the building.

Description

Building automation system using virtual server

The present invention relates to a building automation system using a virtual server, and more specifically, to utilize a virtual server capable of managing multiple groups (multiple buildings) by building an automation system based on a virtual server in a virtual network environment. It is about a building automation system.

Building management is rapidly progressing to the area of experts due to the emergence of very large buildings, complex facilities of new buildings, and safety issues of aged buildings. In particular, as the supply of buildings exceeds demand, the need to strengthen the competitiveness of buildings is emphasized.

In the case of such building management, it was mainly targeted only for temperature control of air conditioning equipment, but as the building has become super-sized and large-sized in accordance with the recent development of information and communication and remarkable technological innovation, various subs such as air conditioning, power, lighting, crime prevention, and access management are provided. It is becoming more intelligent as it spreads to an automatic control system that automatically controls the system.

As an example of such a technique, Korean Patent Publication No. 10-2008-0074374 has been published. This technology includes a central control system that centrally controls subsystems such as power and lighting built in a building connected by a network; A multi-air conditioner system consisting of an outdoor unit and one or more indoor units connected to the outdoor unit; A backnet gateway serving as a connection passage between the central control system and the multi-air conditioner system so that the central control system can centrally control the multi-air conditioner system; It consists of a remote integrated management server that can control the multi-air conditioning system in conjunction with the backnet gateway, and through the remote integrated management server, it manages even detailed information that the existing building management system could not manage. It is to provide a building management system that can be provided.

1 is a schematic configuration diagram of a building automation system according to the prior art. Conventional building automation technology has a structure in which a field control device (DDC) is connected to a control server through a grouped gateway. Because the traditional building automation system uses the same control platform, there is a problem in that a number of groups fail when a server fails, which in turn leads to great difficulties in independence. In addition, with the change of grouping, there is a great difficulty in scalability.

In order to solve this, the applicant has registered the Republic of Korea Patent Registration No. 10-1357226. 2 is a block diagram of a'BAS system using an Ethernet-based virtual network' corresponding to the applicant's registered patent. Looking at the configuration, a server that integrates and manages control information and status information of a plurality of facilities in a building, a client computer that provides a monitoring and control environment for the facility to a facility operation manager, and the server and the client computer, and Includes first to Nth field control devices connected to a control point for each group that collects information of a plurality of facilities in a building to provide control information and status information of the facilities to the server and the client computer. The to-Nth field control device is sequentially connected to other adjacent field control devices through a plurality of connection ports in the device in a wired manner to exchange information between the server and a plurality of facilities in the building, and to change and expand the facility. The first to Nth field control devices are wired to the other field control devices to exchange information between multiple facilities in the building, and to the server, some or all of the wired or wireless methods It is characterized in that to transmit the information of the equipment by performing.

However, the structure of the existing system has the advantage that only a single control system can be built, and only a part of other systems cannot be built. In addition, in the existing DDC structure, even if a company occupies a different area, it must share the same control platform, and this causes a problem of independence and scalability of data when a failure occurs. In particular, when expanding, there is a problem that the limitation is greatly followed by the communication speed limitation.

KR 10-1845396 KR 10-2013-0103102 KR 10-1357226

The present invention for solving the above problems secures the independence and security between networks by using a virtual server in a virtual network environment, and increases the efficiency of building management by using a common control platform or configuring an independent control platform. It aims to provide a purpose that can be done.

The present invention for achieving the above object, in a building control automation system, a client computer (PC) is provided with a control process that provides a facility monitoring and control environment for the facility operation manager, control of a number of facilities in the building Construct an operation server that integrates and manages information and status information, and each operation server is configured to connect multiple virtual automation systems (BAS) servers to a virtual network to have independent operating systems, respectively. A plurality of BAS servers are configured such that each virtual BAS server is created each time a group in the building is created, so that the field control devices existing in one group are independently connected, and each field control device installed in the building ( DDC; Direct Digital Controller) is connected to the virtual network as a network environment to send and receive equipment monitoring and control environments, but an on-site control device included in one group is connected to the virtual BAC server to access the Internet protocol device. After being centralized by the connection protocol, the virtual BAC server transmits and receives data for the monitoring and control environment of the equipment in the group, and each field control device (DDC) independently accesses the virtual BAS server in the building. It is configured to perform data exchange by being integrated and transmitted to the operation server through the configured Internet network.

In addition, the virtual BAS server is transmitted to the network through an Internet protocol for grouping and transmitting one control group (one company) in a building that builds a building automation system to one virtual BAS server, and multiple control groups If present, one protocol is provided for each group to use Internet protocols for each group, and each Internet protocol is configured to be connected to a virtual BAC server.

In addition, the on-site control device (DDC), the light sensor, gas sensor, air conditioning sensor corresponding to the on-site control device to independently connect to the virtual BAS server by LAN (Ethernet) based via LAN SWITCH (LSW) The included sensors are connected to the LAN SWITCH and the detected information value is transmitted to the virtual BAS server through a real-time Ethernet network.

In addition, the on-site control device (DDC) is connected to the virtual BAS server through a plurality of Internet connection ports, and the building automatic control logic and energy saving algorithm (energy management system) by an operating system included in each virtual BAS server. It is driven to implement and execute EMS (Energy Management System)s, perform system management and upgrades.

In addition, the control processor is equipped with a real-time operating system (OS) to determine the environmental information of the facility in the building received from the on-site control device, performs real-time automatic environmental control from the previously input control value, and the client computer It is configured to enable real-time control at a remote site according to an event occurrence in addition to a control value previously input at a remote site through a login information value.

In addition, the client computer, a common control platform capable of performing common control based on a host operating system so as to be able to control each of the virtual BAS servers comprising an independent client computer and an operating system configured with a control process with one operating system. It is configured to enable central control.

In addition, the virtual BAS server is built on a plurality of virtual BAS servers, each based on an application operating system (OS), or based on a plurality of applications in a host OS to build a virtual BAS.

In addition, the second group is characterized in that the second virtual BAS server is generated in case the assigned virtual BAS server malfunctions.

In addition, it is characterized in that malfunction is prevented in advance by reducing the use time of the virtual BAS server by alternately using the virtual BAS server allocated to the one group and the second virtual BAS server at a predetermined cycle.

In addition, the predetermined period is set to 1:1 to determine the use time of the virtual BAS server and the second virtual BAS server allocated to the one group at the same time.

In addition, when one of the virtual BAS server and the second virtual BAS server allocated to the one group is malfunctioning, the malfunctioning virtual BAS server is destroyed and a third virtual BAS server is generated to operate. .

The present invention, constructed and operated as described above, shares the same control platform based on the existing Ethernet to solve the problem of occurrence of failure due to building integration control, the problem of data independence, and the limitation of expansion, and establishes a virtual network foundation. Through implementation of building control, it has excellent advantages such as ease of expansion, communication speed problems, and data management.

In addition, since the present invention can be managed by grouping based on independent virtual networks, individual control has a very excellent advantage.

When configuring the virtual BAS server in this way, it is possible to easily create or delete the desired virtual BAS server with only one hardware, enabling distribution management that is not limited by hardware, and the virtual BAS server assigned to a group fails. When there is a problem or a problem, it is very beneficial to be able to easily create and replace virtual BAS servers for errors, because the second and third virtual BAS servers can be reassigned to the group.

1 is a schematic configuration diagram of a building automation system according to the prior art,
2 is a block diagram of a BAS system using an Ethernet-based virtual network according to the prior art,
3 is a block diagram of a building automation system using a virtual server according to the present invention;
4 is a detailed configuration diagram of a building automation system utilizing a virtual server according to the present invention;
5 is a configuration diagram of a common control platform in a building automation system utilizing a virtual server according to the present invention;

Hereinafter, a building automation system using a virtual server according to the present invention will be described in detail with reference to the accompanying drawings.

Building automation system using a virtual server according to the present invention, in a building control automation system, a client computer (PC) provided with a control process to provide a facility monitoring and control environment for the facility operation manager, a number of facilities in the building Build an operating server that integrates and manages the control information and status information of the server, and the operating server is configured to connect a plurality of virtual building automation system (BAS) servers to a virtual network to have independent operating systems, respectively. Each of the plurality of BAS servers is configured to create one virtual BAS server each time a group is created in the building, so that the on-site control devices existing in one group are independently connected, and each on-site control installed in the building A device (DDC; Direct Digital Controller) is connected to the virtual network in a network environment to transmit and receive equipment monitoring and control environments, but the on-site control device included in one group accesses the Internet to access one virtual BAC server. After being centralized as a protocol device, the connection protocol transmits and receives data for monitoring and control environment of facilities in the group to the virtual BAC server, and each field control device (DDC) accesses the virtual BAS server independently. It is configured to perform data exchange by being integrated and transmitted to the operation server through the internet network configured in the building.

Building automation system using a virtual server according to the present invention, as the virtual server (virtual OS) is built and configured to connect independently to implement a building automation system for each group (floor, company, etc.) in the building, data The goal is to provide a building automation system that utilizes a virtual server that can have independence and ease of management control, efficient maintenance, and excellent scalability.

A typical building automation system consists of a client computer that provides a monitoring and control environment to facility operation managers, a server that centrally manages data, a DDC (Direct Digital Controller) connected to a sensor or facility, and a gateway device that connects the DDC and the server. , The gateway and DDC are connected by serial communication. Here, the serial communication method is based on a BUS type multidrop type connection, and only one cable is connected to each terminal device. On the other hand, this multi-drop type wiring method has the advantage of reducing the cost of the cable, but the maximum speed is only 100 kbps, which is 100 to 10,000 times faster than Ethernet with a speed of 10 Mbps/100 Mbps/1 Gbps. It has a difference. Therefore, since it is too slow to mount a general-purpose transport protocol such as TCP/IP, a serial protocol such as Modbus must be used, so the level of compatibility for linkage between systems is low.

In addition, since the building energy facilities independently adopt and use heterogeneous building automation systems from various vendors, in the case of buildings with facilities of the same vendor, some remote remote energy management is performed for maintenance purposes. On the other hand, in the case of a building with multiple heterogeneous energy facilities, integrated remote energy management of various facilities in the building is not provided.

3 is a block diagram of a building automation system using a virtual server according to the present invention.

In the present invention, in a building control automation system, a client computer 10 equipped with a control process that provides a facility monitoring and control environment to a facility operation manager, integrates and manages control information and status information of multiple facilities in a building. Construction of the operation server 20, the operation server comprises a plurality of virtual BAS (Building Automation System) server 21 to have an independent operating system, where the field control device (DDC, VAV) is connected to the structure It is characterized by having.

The virtual BAS server 21 is shared by an operating server 20 corresponding to a physical server to construct a virtual server, and a field control device (DDC or individual control device; VAV) connected thereto is commonly operated. And management.

Here, in the case of the building automation system according to the present invention, one physical server and multiple virtual BAS servers are constructed and operated, and the main server that controls the entire building operation is implemented to control the entire operation from one virtual BAS server. Can. Therefore, the operation server 20 according to the present invention can be performed as a virtual server or a physical server, and the operation server is equipped with a platform for integrated control to perform its functions.

It is transmitted to the network through the Internet protocol for grouping one control group (one company) in the building and transmitting it to one virtual BAC server. If multiple control groups exist, one group is provided for each group. It uses a separate Internet protocol, and each Internet protocol is configured to be connected to a virtual BAC server.

In addition, the field control device (DDC) is configured to be independently connected to the virtual BAS server by LAN (Ethernet) based via LAN SWITCH (LSW), the light sensor, gas corresponding to the field control device 30 Sensors, including sensors and air conditioning sensors, are connected to the LAN SWITCH (switching hub) and transmit the detected information value to the virtual BAS server through a real-time Ethernet network. At this time, each control device may be connected to the LAN switch through a separate connection device.

Meanwhile, the virtual BAS server 21 is integrated and managed by the operation server 20. As a method of constructing an operating system, a plurality of virtual BAS servers are built on the basis of an application operating system (OS), or multiple in the host OS. Can be built based on two applications.

4 is a detailed configuration diagram of a building automation system using a virtual server according to the present invention.

As shown, in the present invention, a group (for example, company-specific) field control device 30 is connected to each other so that a virtual server 21 is provided to perform data transmission and reception, and the field control device 30 is provided here. Here, in order to realize Ethernet-based connection, which is individually connected, it has a structure connected through a switching hub (LAN SWITCH; 40).

At this time, the field control device is connected to the virtual BAS server through a plurality of Internet connection ports, and the building automatic control logic and energy saving algorithm (energy management system; Energy Management System (EMS) by the operating system included in each virtual BAS server) System)s drive to implement and execute, system management and upgrade.

The client computer 10 is equipped with a control processor for implementing building automation. For real-time automation, this control processor determines the environmental information of the facilities in the building received from the on-site control device, performs real-time automatic environmental control from the previously input control values, and advances at a remote location through the login information value of the client computer. It is configured to enable real-time control at a remote location according to the occurrence of an event in addition to the control value input to.

5 is a configuration diagram of a common control platform configured in a building automation system using a virtual server according to the present invention.

The common control platform 50 is a monitoring platform for clients to control DDC and VAV connected to multiple virtual BAS servers in a common area, and corresponds to a platform operated for building control by accessing the platform from the outside. By configuring the common control platform (50) separately provided in addition to the client PC (10) and the operation server (20) corresponding to the central control, it is possible to respond quickly from the outside and improve the efficiency of building automation in the centralized management mode. It becomes possible.

The common control platform 50 is a common control capable of performing common control based on a host operating so that a control system can control each of the virtual BAS servers configured with an independent client computer and an operating system with a single operating system. Central control is possible using the platform.

In addition, the common control platform 50 may be configured on a cloud basis. It receives the status information on the facility information in the building collected from the on-site control device to the virtual BAS server, and is programmed and controlled to control the data collected in the cloud based on the cloud. In other words, the system can be designed so that the common control platform is performed on the cloud basis and can be constructed to be managed in real time by an administrator or based on an algorithm.

The present invention configured as described above can secure independence and security between networks by using a virtual server in a virtual network environment, and use a common control platform or configure an independent control platform to increase the efficiency of building management. There is an advantage.

As described above, although it has been described and illustrated in connection with a preferred embodiment for illustrating the principles of the present invention, the present invention is not limited to the configuration and operation as illustrated and described. Rather, those skilled in the art will appreciate that many changes and modifications to the present invention are possible without departing from the spirit and scope of the appended claims. Accordingly, all such suitable changes and modifications and equivalents should be considered to be within the scope of the present invention.

10: client PC
20: Operation server
21: Virtual BAS Server
30: Field control device (DDC, VAV)
40: LSW (LAN SWITCH)
50: common control platform

Claims (8)

In the building control automation system,
A client computer provided with a control process that provides a facility monitoring and control environment to the facility operation manager; and
Build an operation server that integrates and manages control information and status information of multiple facilities in a building, and the operation server is connected to a virtual network with multiple virtual BAS (Building Automation System) servers, each with an independent operating system. Building automation system that is composed of each and controls multiple facilities in the building The method of claim 1
Each of the plurality of BAS servers is configured such that each virtual BAS server is created whenever a group in the building is created, so that field control devices existing in one group are independently connected,
Each on-site control device (DDC; Direct Digital Controller) installed in the building is connected to the virtual network as a network environment to transmit and receive facility monitoring and control environments, but the on-site control device included in one group includes one After being centralized with an Internet access protocol device to be connected to the virtual BAC server, data is transmitted and received for monitoring and control environment of facilities in the group to the virtual BAC server by the access protocol,
Each on-site control device (DDC) is a building automation system utilizing a virtual server that is configured to perform data exchange by independently connecting to the virtual BAS server and being integrated and transmitted to the operation server through the Internet network configured in the building. The virtual BAS server of claim 2,
One control group (one company) in the building building a building automation system is grouped and transmitted to the network through the Internet protocol for transmission to a single virtual BAC server. If multiple control groups exist, one for each group Building automation system that utilizes a virtual server that provides a protocol and uses each group's Internet protocol and configures each Internet protocol to be connected to a virtual BAC server. According to claim 2, The field control device (DDC),
The sensors including the light sensor, gas sensor, and air conditioning sensor corresponding to the field control device are connected to the virtual BAS server by LAN-based Ethernet switch (LSW) and detected independently, connected to the LAN SWITCH. Building automation system using a virtual server, characterized in that the information is transmitted to the virtual BAS server via a real-time Ethernet network. According to claim 2 or 3, wherein the field control device (DDC),
Building automatic control logic and energy saving algorithms (energy management systems; energy management systems (EMS) implementation and execution by the operating system included in each virtual BAS server connected to the virtual BAS server through multiple Internet connection ports, Building automation system using virtual servers that drive system management and upgrades. The method of claim 2, wherein the control processor,
A real-time operating system (OS) is installed to determine the environmental information of the facilities in the building received from the on-site control device, perform real-time automatic environmental control from the previously entered control values, and from a remote location through the login information value of the client computer. Building automation system that utilizes a virtual server that is configured to enable real-time control from a remote location according to an event occurrence in addition to the previously entered control values. The method of claim 2, wherein the client computer,
Central control is possible by using a common control platform that can perform common control based on the host operating system so that each virtual BAS server comprising an independent client computer and an operating system configured with a control process can be controlled by one operating system. Building automation system that utilizes a virtual server. The virtual BAS server of claim 5,
Building automation system that utilizes a virtual server that builds a virtual BAS by constructing based on a plurality of applications in a host OS or each based on an application operating system (OS).

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