JP2004332995A - Air conditioning system, centralized remote control - Google Patents

Abstract

A system including a remote control terminal of an air conditioning system is an expensive dedicated system. At the request of the customer, the remote control terminal was desired to be used together with the business processing PC. However, the remote monitoring terminal software was created in a special language, and it was created using a special PC because of the problem of interference with other software. System.
A dedicated interface is provided in a controller basic unit which is control software of a centralized remote controller for monitoring and controlling an air conditioner, and a remote monitoring function is realized by mounting a Web server on Java (R). As a result, a remote monitoring function became possible while maintaining the operability of the local device and the reliability of the software. Furthermore, since the screens provided on the centralized remote controller and the screens provided on the remote terminal are generated by different software using different languages, useful devices can be obtained for each application.
[Selection] Figure 2

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an air conditioning system for remotely monitoring and controlling an air conditioner and equipment, and a technology of a centralized remote controller.
[0002]
[Prior art]
FIG. 3 is a block diagram showing a configuration of a conventional air conditioning system (for example, see Patent Document 1).
[0003]
[Patent Document 1]
JP-A-2000-266390 (FIGS. 1, 2 etc.)
[0004]
In FIG. 3, a plurality of indoor units 102 a to 102 c and outdoor units 101 a to 101 c are connected by a refrigeration cycle or a communication line to form an air conditioner, and an indoor unit Hot / cold heat is supplied to the heat exchanger via a refrigerant circulated from a heat source of a refrigeration cycle incorporated in the outdoor unit, and air conditioning such as heating and cooling is performed by a blower in the indoor unit. The operation of the air conditioner such as ON / OFF, cooling / heating operation, dehumidification, humidification, ventilation, and the like is controlled by transmitting and receiving data via a transmission line 104 as a communication line. Individual remote controllers 103a to 103c that operate the indoor units 102a to 102c are usually placed in the same room as the indoor units. A central control device 105 for group-controlling the indoor units 102a to 102c is arranged in a central control room or the like so that a plurality of air conditioners can be operated collectively, and is connected to the air conditioners via a transmission line 104. Then, the operation of the indoor units 102a to 102c is performed.
[0005]
The equipment controller 106 is connected to the indoor units 102a to 102c, the outdoor units 101a to 101c, the remote controllers 103a to 103c, and the central control unit 105 via the transmission line 104, and is provided as building equipment for transmitting and receiving data to and from the outside. . The equipment controller 106 is connected to a public line 108 via a modem 107 as a public line connection device. The remote monitoring terminals 110a to 110c are connected to the public line 108 via the modems 109a to 109c to communicate with the equipment controller 106, and to check the status of the air conditioner in a specific building or the like at a remote place. It is displayed and edited, and a personal computer or the like is used as a general-purpose device.
[0006]
Note that the outdoor units 101a to 101c, the indoor units 102a to 102c, the remote controllers 103a to 103c, and the central control device 105 are not limited to the above-described number, and the number of the remote monitoring terminals 110a to 110c is also not limited to the above. Not restricted.
[0007]
The equipment controller 106 monitors and controls the operation state of the outdoor units 101a to 101c and the indoor units 102a to 102c. Communication means for communicating with the central control device 105, and public line communication means for performing data conversion for communicating with the remote monitoring terminals 110a to 110c via the public line 108 and the modems 107 and 109a to 109c. On-site adjustment means for inputting system information of the air conditioning system on site, and display means for notifying the state of the self (hereinafter, “self” refers to the equipment controller 106 itself) and the state of the air conditioner and the like to the outside. , A search finger configured by a switch that triggers an information search instruction in the system. And a means or the like.
[0008]
Further, the microcomputer has system information storage means for storing system information of the air conditioning system set by the on-site adjustment means, operation state storage means for storing the operation state of the air conditioner, and setting and registration at the site. Information comparing means for comparing the address information of the air-conditioning system that is present and the address information of the air-conditioning system at the present time detected by itself, and a system that automatically collects system information of the air-conditioning system in which the air-conditioning apparatus and the like exist It has information collection means and the like.
[0009]
The central control device 105 can perform individual operation operations of the air conditioner connected in the air conditioning system, but the communication protocol for the operation control has a unique air conditioner. ing. In general, since this communication protocol differs for each air conditioner supplier, it can be said that each air conditioner takes a closed system form.
[0010]
The equipment controller 106 can communicate with the remote monitoring terminals 110a to 110c. However, the system information that is communication information is information within a closed control range of the communication protocol of the air conditioning system, Information on air conditioning systems of different air conditioner manufacturers cannot be shared. In addition, it is distinguished from the central control device 105 that exchanges information with the air conditioner, and is a device dedicated to the system.
[0011]
In the case of a large-scale conventional air conditioning system in which the number of connected outdoor units 101 and indoor units 102 is large, for example, data is managed by an equipment controller for 50 air conditioning units, and a plurality of the equipment controllers are controlled to 2,000 units. In order to perform centralized control of the air conditioner, a general controller may be provided, one of which is connected to a plurality of equipment controllers 106 and the other is connected to a modem 107. The centralized controller collects the operation information from the plurality of equipment controllers 106, and transmits the operation information of the indoor units 102a to 102c and the outdoor units 101a to 101c via the modem 107, the public line 108, and the modems 109a to 109c. To the devices 110a to 110c.
[0012]
[Problems to be solved by the invention]
Since the conventional air conditioning system is configured as described above, there are the following problems. Generally, an air conditioner has a dedicated communication protocol which differs depending on a manufacturer. Further, when remotely monitoring the state of the air conditioner at a location away from the building where the air conditioner is installed, it is necessary to use the public line 108 as an information communication path. The modem 107, which is an interface provided as a standard, has general-purpose communication means. In order to transmit the operation information of the air conditioner to the remote monitoring terminals 110a to 110c, a device that converts a dedicated communication protocol of the air conditioner into a general-purpose communication means, such as the equipment controller 106 or the general controller, is used. There is a problem that it is required specially and equipment cost increases.
[0013]
Further, since the RS232C interface, which is a general-purpose communication means of the modem 107, is restricted to one-to-one communication, only one equipment controller 106 can be connected to the modem 107, and the number of connectable air conditioners is limited. There was a problem. Therefore, in order to remotely monitor a system having many air conditioners, a general controller for controlling the information of the plurality of equipment controllers 106 and connecting to the modem 107 is required. In a large-scale system, the cost is further increased. At the same time, there is a problem in that restrictions are imposed on the space of the mounting place and the design.
[0014]
Furthermore, when a new type of air conditioner having a new function is added to the conventional system, the program of the equipment controller 106 and the general controller for relaying the signal of the new function must be changed. However, there is a problem that a large load is applied to the above.
[0015]
Further, the remote monitoring terminals 110a to 110c had to be equipped with a screen or program dedicated to monitoring. There are many requests to use a personal computer as a remote monitoring terminal 110a-110c for office work, etc., and when this monitoring-dedicated program and office work program are used at the same time, it is determined whether or not the use thereof has a mutual adverse effect. Since it is unknown, the remote monitoring terminals 110a to 110c have to be dedicated to monitoring, and there is a problem that the number of devices increases and the scale becomes large. Furthermore, when the air conditioner is replaced with a new product or when the operating system is upgraded, it is necessary to change the program used in the past, increasing the cost and imposing a heavy load on the service. was there.
[0016]
In order to cope with the above-mentioned problems, in order to construct a system without a general controller, a method using a LAN (Local Area Network), which is a transmission medium that allows a plurality of devices to communicate at a high speed, and a method using the equipment controller 106 are described. In order to reduce the equipment installation and wiring work costs, to install the function of the equipment controller 106 in the central control device 105 of the air conditioner, and to eliminate the need to install a dedicated monitoring program in the remote monitoring terminals 110a to 110c A method of generating and transmitting a screen that can be displayed by the browser in the equipment controller 106 or the general controller using browser software capable of performing general-purpose remote monitoring for the remote monitoring terminals 110a to 110c can be considered. However, such a solution has a problem that the capital investment cost becomes too large. Furthermore, the browser is pre-installed on the personal computer in the form of being attached to the OS, but the standard parts for displaying and operating are different depending on the version, and the standard browser is used instead of the dedicated monitoring program. Regardless, there is a problem that version control and the like are required. In addition, when monitoring and operating a plurality of types of equipment including equipment other than air conditioners in a building, there is a problem that it is necessary to prepare a large number of screen contents necessary for each monitoring and operation. Was.
[0017]
The present invention has been made to solve the above problems, and has as its object to obtain a device capable of operating and monitoring a large number of devices with a simple configuration without a large-scale investment. Another object of the present invention is to provide a highly reliable device that can simplify services. Further, the present invention proposes a technique capable of maintaining good quality of software for monitoring and operating hardware devices for a long time.
[0018]
[Means for Solving the Problems]
An air conditioner system according to the present invention includes an air conditioner that connects an outdoor unit and an indoor unit to perform air conditioning in a room, and a signal that operates an air conditioner to stop operation by a first transmission unit that transmits and receives the air conditioner. And a centralized remote control capable of receiving and monitoring a signal indicating the operation / stop status of the air conditioner, and receiving / receiving the operation / stop status of the air conditioner transmitted / received by the centralized remote control by transmitting / receiving to / from the centralized remote control. And a remote monitoring terminal for monitoring, wherein an extensible marked language is used for exchanging data between the remote monitoring terminal and the centralized remote controller, and the remote monitoring terminal is processed by a browser.
[0019]
An air conditioning system according to the present invention transmits an air conditioner configured by an outdoor unit and an indoor unit, and a signal for operating / stopping the air conditioner by a first transmission unit that transmits and receives the air conditioner. At the same time, a centralized remote controller capable of receiving and monitoring a signal indicating the operation / stop state of the air conditioner, and transmitting a signal for operating / stopping the air conditioner by a second transmission unit that transmits / receives to / from the centralized remote controller. And a remote monitoring terminal capable of receiving and monitoring a signal indicating the operation / stop state of the air conditioner, and a remote control terminal that can be remotely controlled. The interface software of the centralized remote controller connected to the monitoring operation screen of the remote monitoring terminal It uses the Java (R) language.
[0020]
The air conditioning system according to the present invention includes a first transmission unit that communicates with the air conditioning apparatus and a second transmission unit that communicates with the remote monitoring terminal, from an operation setting unit that performs an independent operation for each function. A centralized remote controller for processing the operation information of the air conditioner, which is provided in the centralized remote controller, generates screen information from the operation information of the air conditioner collected via the first transmission means, and remotely monitors the information via the second transmission means. A management information processing unit that transmits to the terminal, relays the control information received from the remote monitoring terminal via the second transmission unit, and transmits the control information to the air conditioning apparatus via the first transmission unit. The remote monitoring terminal monitors and operates the screen information transmitted from the centralized remote controller using a browser.
[0021]
A centralized remote controller according to the present invention includes a display screen generating means for receiving operation information of a connected device and generating a first screen from the operation information so as to be displayed on a display means, and a remote terminal based on the operation information of the device. Remote screen generating means for generating a second screen to be transmitted to the device, wherein the first screen and the second screen are generated by different software using different languages.
[0022]
The centralized remote controller of the present invention is a centralized remote controller equipped with software for performing communication with a device that performs an operation, generating screen information from operation information of the device, and transmitting the generated screen information to a remote monitoring terminal via a transmission unit. This software is software in a Java (R) language that performs an analysis function of a language with a mark that is an extensible mark, which is a communication interface for remote monitoring and operation, and a Web server that performs transfer to a browser.
[0023]
BEST MODE FOR CARRYING OUT THE INVENTION
Embodiment 1 FIG.
FIG. 1 is a block diagram showing a configuration of an air conditioning system according to Embodiment 1 of the present invention. In the figure, the air conditioner includes an outdoor unit 1 and an indoor unit 2 connected to the outdoor unit 1 via a refrigerant pipe 3. A single air conditioner is formed by the outdoor unit 1 and the indoor unit 2. Make up. The transmission medium 4 connecting the outdoor unit 1 and each indoor unit 2 is a dedicated communication line of the air conditioner.
[0024]
The centralized remote controller 5 is connected to the outdoor unit 1 and the indoor unit 2 via the transmission medium 4, divides the air conditioners into a plurality of groups, performs operation operation for each group, and collects operation information of each air conditioner. The operation status is monitored. The remote monitoring terminal 15 is equipped with browser software 16 capable of performing general-purpose remote monitoring, and operates the air conditioner via the transmission medium 14 according to the operation information of the air conditioner collected by the centralized remote controller 5. And controls the operation of the air conditioner by transmitting control information. Here, a personal computer that is generally used in the market is used as the remote monitoring terminal 15, and a transmission medium that can be connected to the personal computer, such as a LAN (Local Area Network) or a wireless LAN, is used as the transmission medium 14. I just want it. As described above, in the configuration of the present invention, the air conditioner, which is a device to be operated, is connected to the remote monitoring terminal 15 via the centralized remote controller 5 via the transmission line, and directly transmits and receives signals to perform operation and monitoring.
[0025]
The centralized remote controller 5 is connected to the outdoor unit 1 and the indoor unit 2 via the transmission medium 4, and is a transmission unit (first transmission unit) 6 for communicating with the air conditioner and an operation for operating the air conditioner. Display means for displaying the operation contents of the operation setting means 8 and the operation determining means 7 and the operation state of the air conditioner which are independent for each function, such as the deciding means 7 and the operation changeover switch 8a, the cooling / heating changeover switch 8b, and the air volume changeover switch 8c. 9.
[0026]
Further, in the centralized remote controller, the air collected through the central processing means 10 and the operation determining means 7 which manage the processing of the operation information and operation information of the air conditioner and the processing of the management information of the air conditioning system, and the air collected through the transmission means 6. The operation information of the harmony device is processed, and the control information from the operation information processing unit 11 and the remote monitoring terminal 15 for generating the screen information to be displayed on the display means 9 is relayed to the air conditioning device and transmitted to the air conditioning device. A management information processing unit 12a that controls the device and processes the operating information of the air conditioner collected via the transmission unit 6 to generate screen information to be displayed on the remote monitoring terminal 15, and a transmission medium 14. It has a transmission means (second transmission means) 13 connected to the remote monitoring terminal 15 and communicating with the remote monitoring terminal 15.
[0027]
Next, the operation will be described. The operation information input by the operation setting means 8 which is independent for each function such as the operation changeover switch 8a and the cooling / heating changeover switch 8b in the operation determination means 7 provided in the centralized remote controller 5 is processed by the operation information processing section 11. The air conditioner is transmitted through the transmission means 6 and the transmission medium 4 to operate the air conditioner.
[0028]
The centralized remote controller 5 is provided with operation switches, which are operation setting means 8 for operating the air conditioner, independently for each function. The number of operation functions is equivalent to 105. However, unlike a touch key liquid crystal screen, for example, which has a large number of display items and the meaning of the key changes for each screen when the screen is turned, etc., the operation setting means 8 is independent for each function, so that it is obvious at a glance. The configuration is such that a user who actually uses the apparatus can easily understand and operate the apparatus.
[0029]
In addition, the operation information processing unit 11 generates, for example, screen information in the operation of the air conditioner, based on the operation information from the operation determining unit 7 and the operation information collected from the air conditioner via the transmission medium 4 and the transmission unit 6. Is displayed on the display means 9.
[0030]
The management information processing unit 12a relays the control information from the remote monitoring terminal 15 received via the transmission medium 14 and the transmission means 13 and transmits the control information to the air conditioner via the transmission means 6 and the transmission medium 4 to transmit air. Control the operation of the harmony device.
[0031]
Further, the management information processing unit 12a processes the operation information of the air conditioner collected via the transmission medium 4 and the transmission unit 6, generates screen information to be displayed on the remote monitoring terminal 15, and generates the transmission unit 13 and The data is transmitted to the remote monitoring terminal 15 via the transmission medium 14. The remote monitoring terminal 15 uses the installed browser software 16 to display the transmitted screen information on a built-in display means (not shown) to monitor the operating condition of the air conditioner.
[0032]
FIG. 2 is a software block diagram of the centralized remote controller and the remote monitoring terminal described in FIG. 1. The software used in the figure is described. The software of the centralized remote controller 5 for processing the operation of the equipment includes a user interface unit 24a serving as a user interface such as a liquid crystal showing a screen and a switch showing an operation in a portion indicated by the controller basic unit 24, and an application for automatically controlling a schedule and the like. Unit 24a and an air conditioning data processing unit 24b that performs transmission and reception with the air conditioner. When the user interface unit 24a and the application unit 24a perform a user operation or an operation operation on the air conditioner by automatic execution on the air conditioning data processing unit 24b, a local communication driver using an interface means provided by the OS called a message. Run through. The application unit 24a of the controller basic unit 24 processes search information in the operation information processing unit 11 according to an input from an operation setting unit 8b for operating an operation mode such as cooling / heating which is a switch in the centralized remote controller 5, Is software for generating a screen on the display means 9.
[0033]
The OS referred to as this message is created for the purpose of performing consistency, synchronization, exclusive control, and the like in the operation order of the air-conditioning data processing unit 24b, such as the operation of the air-conditioning apparatus, the mode operation, and the set temperature operation. On the other hand, the browsing of data is of a direct data reference format via an access function due to problems such as overhead. For the operation of the software related to such operations, a method is used in which a predetermined pattern of a data string called a message is analyzed and the processing is advanced in order to enhance the independence of the software. It becomes a trade with independence. For this reason, the reference and the setting are separated, and the setting uses a message. The reference creates a function for accessing data and changes the function at the worst to maintain the independence of the software. The role of the data access function is to use this function in all locations that refer to the data, so that even if the format of the data is changed, one function can be changed without affecting other software locations. . The software in the controller basic unit 24 is created in principle in C language, for example. That is, the controller basic unit 24 exchanges data with the air conditioner composed of the outdoor unit and the indoor unit in the central processing unit in FIG. 1, information processing relating to operations performed by the centralized remote controller 5, and processing of screen generation information to a display unit which is a liquid crystal screen. It is carried out. Thus, the operation of the air conditioner can be performed in a simple and easy-to-understand manner using the centralized remote controller.
[0034]
The remote monitoring function by software in the centralized remote controller 5, that is, by the browser, is a function of holding and downloading the monitoring operation screen 27 of the software operating on the browser, and the function of the remote monitoring terminal 15 also operating on the browser 16. An XML delivery mechanism, which is a data updating means between the software monitoring operation screen 17 and the central remote controller 5, is performed by the Web server 23 and the XML delivery class 26. Note that XML is an abbreviation for extensible markup language, which is an extensible markup language, and has been formulated in order to make it possible to easily use Standardized Markup Language standardized by ISO on the Internet. In Hyper Text Markup Language, only standardized tags related to the display of the browser can be used, but in XML, unique tags can be used, so that it is used for data transfer between the centralized remote controller and the remote monitoring terminal of the present invention. The XML delivery class is a syntax analysis unit for transferring an XML command, which is sent from a remote monitoring terminal and instructing an operation of the air conditioner, to an object of the air conditioner, that is, an image inside the software. A Java (R) applet is used for the monitoring operation screen software, but the browser which is the Internet browsing software usually installed along with the OS of the personal computer has an environment for executing the Java (R) virtual machine and operates there. Shows software. However, since the standard applet does not have an XML transmission / reception function, it is an applet class with an XML delivery function added thereto.
[0035]
A Java (R) Native Interface (JNI) 25 is created so that the software of the controller basic unit 24 can be used as it is on the Web server 23 and the delivery class 16 and the like, and air from the monitoring operation screen 17 operated by the remote monitoring terminal is created. Since the operation and monitoring of the harmony device can be executed, the software of the controller basic unit 24 can be used almost as it is. In the example of the present invention, software is created in the Java (R) language, which is a language that operates on a Java (R) virtual machine. Although there are interfaces for TCP / IP, serial, file system, etc., which are standard devices assumed by the Java (R) virtual machine, driver software such as a protocol on a communication line with an air conditioner is not available. Since it does not exist, it is necessary to have a role of extending this to a Java (R) virtual machine. The Java (R) virtual machine itself is software written in C language, assembler language, or the like, and the driver of the communication protocol used for the air conditioner is described in C language or assembler language independently of this software. R) An interface that can be accessed from a virtual machine is JNI. As described above, the software described above the Java (R) VM in the drawing in the centralized remote controller 5 is created using the Java (R) language. In this case, the data exchange with the air conditioner composed of the outdoor unit and the indoor unit in the central processing means processed by the controller basic unit 24, and the information processing concerning the operation performed by the central remote controller 5 are translated by the JNI 25, so that the raw information is directly processed. Can be exchanged as an air conditioner class. However, screen information to be transmitted to the remote monitoring terminal on the monitoring operation screen 27 is generated from the raw information.
[0036]
As shown in the description of FIG. 2, the screen information is generated in the C language in the application unit 24a of the controller basic unit 24, while the screen information to the display means 9 in the centralized remote controller 5 is generated. The screen information to be transmitted to 15 is performed by the Java ™ applet which is the monitoring operation screen software 27. First, the display means 9 provided on the centralized remote controller 5 is a simple device with a liquid crystal screen display using simple characters in order to display the minimum necessary information for the purpose of reducing the size of the remote controller and reducing the price. On the other hand, since the remote monitoring terminal 15 uses a commercially available personal computer or the like, the cost is reduced, and the screen is large and can be easily viewed. This screen can be a graphical display using icons or the like. Secondly, the operation information processing unit operated by a button attached to the centralized remote controller 5 and displayed on the liquid crystal is used as long as it can easily process data transmitted to and received from the air conditioner and the processing inside the remote controller is simple. The most popular software language, for example, C language is used. On the other hand, the software of the management information processing section for exchanging information with the remote monitoring terminal 15 via an external line such as a telephone is created using the Java (R) language, which is easy to program for network processing.
[0037]
The centralized remote controller according to the present invention has the functions of a conventional centralized control device and equipment controller. That is, it controls the individual operation of many air conditioners connected in the air conditioning system, and monitors and controls the operation state of each outdoor unit or indoor unit. Communication means for communicating with a remote controller, an indoor unit, a remote controller, etc., a public line communication function for performing data conversion for communicating with a remote monitoring terminal via a public line and a modem, and an air conditioning system on site It has an on-site adjustment function for inputting information, a display function for notifying its own status and the status of the air conditioner, etc. to the outside, and a search command function composed of a switch that triggers an information search command in this system. In addition, the function of storing the system information of the air conditioning system, the function of storing the operating condition of the air conditioner, and the address of the air conditioning system registered and set on site Function of comparing the information with the address information of the air conditioning system at the present time self detects, system information of the air conditioning system there is an air conditioner or the like automatically functions etc. can be provided to collect.
[0038]
On the other hand, the function of the general controller of the conventional product is realized on a commercially available personal computer so that the processing can be easily performed for many devices. Furthermore, the interface function with a host system that monitors air-conditioning equipment in a plurality of buildings at once or monitors the management of other equipment, etc., requires that a LAN that enables many-to-one communication with the host device can be used. By providing a Web screen distribution function, a dedicated system is not required on the host system side and a browser is used, so connection to the host system can be easily performed and a flexible system can be provided. That is, the centralized remote controller according to the present invention is more sophisticated than the conventional remote controller, and the operation on the remote monitoring terminal can be performed with a graphical and advanced operation using icons and the like. Basic operations such as starting and stopping the air conditioner, selecting the operation mode, monitoring and changing the set temperature, and displaying the wind direction and air speed are performed simultaneously for many devices. Screen generation can be performed in an easy-to-view form.
[0039]
Further, the XML delivery class 26 in which the JNI 25 is executed is realized by a task with a lower priority so as not to cause a problem in the processing timing, execution performance, and the like for the controller basic unit 24.
[0040]
The monitoring operation screen 27 is downloaded from the browser 16 executed on the remote monitoring terminal 15 to the centralized remote controller 5 via the second transmission means, and the monitoring operation screen 17 is loaded on the browser 16. The monitoring operation screen 27 is stored in a file format, and is realized by the Web server 23 processing a download request from the browser 16. The monitoring operation screen 17 loaded in the browser 16 communicates with the centralized remote controller 5 using the XML communication protocol, and performs browsing of air conditioner information, operation of operation stop, mode, set temperature, browsing of various histories, and the like.
[0041]
The monitoring operation screen 27 executed on the remote monitoring terminal 15 is realized by a Java (R) applet. Each of the monitoring operation screens 27 is created by inheriting an applet class with an XML delivery function to which a function related to the XML delivery is added, and an XML command for analyzing an XML command for interfacing with the central remote controller 5 is provided on each screen. Data is analyzed using the static method of the analyzer class. This is because when the group operation screen of the air conditioner and the batch operation screen of the air conditioner are separated, there is an applet for each screen, and the XML to communicate is the same operation command for the air conditioner. The XML analyzer class is extracted and extracted from the XML analyzer class, which can be used by the applet of each screen to separate the data interface and screen processing and reduce software code. . The GUI components used for each screen are Java (R). It was created using Label, Button, Choice, TextField, Panel, ScrollPane, etc. provided in JDK1.1 among the classes of the awt package. We decided not to use anything that requires downloading, such as the swing package provided by JDK1.2, which is not included in the browser as standard, and created it in a form that is independent of the version of the browser.
[0042]
In this way, the monitoring operation screen executed on the remote monitoring terminal side is created using only the standard class of the Java (R) applet, so that there is no problem of interference with the OS, version and other software, and the remote monitoring terminal can perform business processing. The dual use with PC became possible. As described above, in the air conditioning system of the present invention, the Java (R) I / F is created in the central remote control software in the air conditioning system including the outdoor unit and the indoor unit and the central remote controller. This realizes a remote operation terminal while maintaining the conventional software quality. In other words, if the software with the same function is re-created, the defect will enter into that part. Therefore, it is necessary to create a software interface and add the function without changing the conventional function as much as possible, or to upgrade the software version The software quality is maintained as a non-compliant system. This means that software for operating and monitoring hardware products such as air conditioners that are used for a long period of time, that is, software that does not change much like hardware, is constructed from a combination of different software. Quality maintenance by hardware and software.
[0043]
As described above, the air conditioning system of the present invention has a remote operation screen independent of the browser version, OS, etc. in an air conditioning system including an outdoor unit and an indoor unit and a centralized remote controller. Therefore, while the air conditioner, which is hardware, has been operating for a long period of time, on the order of 10 years, the software used for control devices and remote monitoring devices that monitor and operate this hardware can be upgraded or the OS can be changed. Anything that is not affected by such factors can be used and changes in software can be suppressed, so that long-term quality can be maintained. In the above description, the air conditioning system was described as an example. However, the present invention is not necessarily limited to this. For example, a thermal equipment monitoring system that operates a boiler or the like in combination with air conditioning in a building, and the operation of many trains Naturally, the present invention can be applied to equipment used in many systems such as a traffic monitoring system for monitoring and operating, a system for monitoring and operating a plurality of water and sewage systems, a power system monitoring, and a sales and financial system monitoring. The display means in the centralized remote controller is described as a liquid crystal, and the information transmitted to the display means is described as information for generating a screen. However, it is natural that the display means can display simple information. For example, a combination of a storage means such as an IC tag and a reader may be read as a display device. In this case, by providing a writer and a reader in the centralized remote controller, signal processing and transmission can be easily performed.
[0044]
As described above, the air-conditioning system of the present invention has an operation terminal in an air-conditioning system including an air conditioner composed of an outdoor unit and an indoor unit and a centralized remote controller, thereby increasing the cost of the system by increasing the functionality of the centralized remote controller. It is to suppress the conversion.
[0045]
In the air conditioning system according to the present invention, the centralized remote control includes a first transmission means for communicating with the air conditioning apparatus, a second transmission means for communicating with the remote monitoring terminal, and an operation setting means independent for each function. Process the operation information of the air conditioner via the first transmission means and transmit it to the air conditioner, generate screen information from the operation information of the air conditioner collected via the first transmission means, and display the screen information on the display means An operation information processing unit that causes the information processing unit to generate screen information from the operation information of the air conditioner collected via the first transmission unit, and transmits the screen information to the remote monitoring terminal via the second transmission unit; A management information processing unit for relaying the control information received from the terminal via the second transmission means and transmitting the control information to the air conditioner via the first transmission means, wherein the remote monitoring terminal receives Screen information sent Monitoring by the browser, so that operation, it is possible to achieve a low cost high performance.
[0046]
In addition, software for monitoring and operating the remote monitoring terminal of the centralized remote controller of the present invention using a browser is created using a Java (R) applet, and is affected by the OS of the remote monitoring terminal and the version of the browser. In order to eliminate the problem, the form is created using only the parts installed as standard. As a result, it is possible to use both business processing personal computers and remote monitoring terminals that are highly demanded by customers, and it is possible to cope with an increase in the number of monitoring points at low cost. It becomes easy to deal with. The monitoring operation screen executed on the remote monitoring terminal side is created only with the standard class of Java (R) applet, so that there is no problem of interference with OS, version and other software. Dual-purpose is possible.
[0047]
The software for realizing the remote monitoring function mounted on the centralized remote controller according to the present invention includes a file system holding a Java (R) applet for performing monitoring and operation, and a Web server for performing transfer to a browser and the like. In addition, an XML analysis function, which is a communication interface for remote monitoring and operation, is required. For such parts, existing Web server products created on Java (R) are used to reduce the creation load and portability. As a result, it is easy to handle devices that perform various driving operations and many devices.
[0048]
The transmission unit for the air conditioner, which is a basic function of the centralized remote controller, and the display software of the centralized controller main body are implemented on the μITROM OS using the C language. To create a Java (R) Native Interface, which is an interface to connect this part to the above-mentioned Java (R) Web server, to shorten development man-hours and maintain quality by using the software of the basic part almost as it is. Can be done.
[0049]
As described above, according to the present invention, it is not necessary to add a special device, program, and construction for remote monitoring, and handling is easy for sellers, service providers, and facility designers. The effect is that costs can be minimized.
[0050]
Further, according to the present invention, it is possible to realize, at low cost, a control system that operates in connection with equipment that is installed in conjunction with an air conditioner or equipment that is not assumed to be connected in advance without adding expensive control equipment. There is an effect that can be.
[0051]
【The invention's effect】
As described above, according to the present invention, it is possible to obtain a device capable of operating and monitoring a large number of devices with a simple configuration without a large-scale investment. Further, according to the present invention, the service can be simplified and a highly reliable device can be obtained. Further, according to the present invention, the quality of software for monitoring and operating the hardware can be maintained for a long period of time similarly to the hardware.
[Brief description of the drawings]
FIG. 1 is a block diagram illustrating a configuration of an air conditioning system according to Embodiment 1 of the present invention.
FIG. 2 is a software block diagram showing a software configuration of the air-conditioning system according to Embodiment 1 of the present invention.
FIG. 3 is a block diagram showing a configuration of a conventional air conditioning system.
[Explanation of symbols]
1 outdoor unit, 2 indoor unit, 3 refrigerant piping, 4 air conditioning system dedicated network, 5 centralized remote control, 6 first transmission means, 7 operation determination means, 8a operation operation button, 8b cooling / heating switching button, 9 display means, Reference Signs List 10 central processing means, 11 operation information processing section, 12a management information processing section, 13 second transmission means, 14 remote monitoring network, 15 remote monitoring operation terminal, 16 browser, 15 remote operation terminal, 16 browser 17 monitoring operation Screen (Applet), 23 Web server, 24 Controller basic unit, 24a Application unit and user interface unit, 24b Air conditioning data processing unit, 25 Java (R) Native interface, 26 XML delivery class, 27 Monitoring operation screen (Java (R)) Applet), 101 a, 101b, 101c outdoor unit, 102a, 102b, 102c indoor unit, 103a, 103b, 103c remote control, 104 air conditioning system dedicated network, 105 centralized control unit, 106 equipment controller, 107 modem, 108 public line, 109a, 109b, 109c Modem, 110a, 110b, 110c Remote monitoring terminal.

Claims (9)

An air conditioner that connects an outdoor unit and an indoor unit to perform air conditioning in the room, and a signal for operating the operation and stop of the air conditioner transmitted by a first transmission unit that transmits and receives the air conditioner, A centralized remote controller capable of receiving and monitoring a signal indicating the operation / stop state of the air conditioner, transmitting / receiving the air conditioner transmitted / received to / from the centralized remote controller by transmitting / receiving to / from the centralized remote controller, and performing operation / monitoring. A remote monitoring terminal for performing, using an extensible marked language for exchanging data between the remote monitoring terminal and the centralized remote controller, wherein the remote monitoring terminal processes by a browser. Air conditioning system. An air conditioner including an outdoor unit and an indoor unit, and a signal for operating the air conditioner that is operated and stopped by a first transmission unit that transmits and receives the air conditioner, A centralized remote controller capable of receiving and monitoring a signal indicating a running / stop state, and a signal for operating / stopping the air conditioner transmitted by a second transmission unit that transmits / receives to / from the centralized remote controller, A remote monitoring terminal capable of receiving and monitoring a signal indicating the operation / stop state of the harmony device, the remote monitoring terminal being operable. Java interface software for the centralized remote controller connected to the monitoring operation screen of the remote monitoring terminal is provided. (R) An air conditioning system using a language. The remote monitoring terminal is connected to the centralized monitoring device via a telephone line or the like, is operated by a browser, and has a remote operation screen independent of the browser version, OS and the like. Item 3. The air conditioning system according to item 1 or 2. A central remote controller that has first transmission means for communicating with the air conditioner and second transmission means for communicating with the remote monitoring terminal, and processes operation information from operation setting means for performing independent operations for each function; Provided in the centralized remote controller, generates screen information from the operation information of the air conditioner collected via the first transmission means, and transmits the generated screen information to the remote monitoring terminal via the second transmission means. A management information processing unit that relays the control information received from the remote monitoring terminal via the second transmission unit and transmits the control information to the air conditioning apparatus via the first transmission unit, The air conditioning system, wherein the remote monitoring terminal monitors and operates screen information transmitted from the centralized remote controller by using a browser. Provided in the centralized remote controller, transmits to the air conditioner via the first transmission means, and generates and displays information from the operation information of the air conditioner collected via the first transmission means. 5. The air conditioning system according to claim 4, further comprising: an operation information processing unit for displaying on the means. 6. The screen information to be transmitted to the remote terminal and the screen information to be displayed on a display unit in the centralized remote controller are generated by different software using different languages. Air conditioning system. A display screen generating means for receiving the operation information of the connected device and generating a first screen so as to be displayed on the display means from the operation information; and a second screen for transmitting to the remote terminal from the operation information of the device. A centralized remote control, comprising: remote operation screen generation means for generating a screen, wherein the generation of the first screen and the generation of the second screen are performed by different software using different languages. This is a centralized remote controller that is equipped with software that communicates with the device that performs operations, generates screen information from the operation information of this device, and transmits it to the remote monitoring terminal via transmission means. This software is transferred to the browser. A centralized remote control, which is software in a Java (R) language that performs an analysis function of a language with an extensible mark, which is a communication interface for remote monitoring and operation, and a Web server for performing such operations. The second software used for processing the transmission unit with the device for operating the centralized remote controller and the built-in display means is implemented using a C language on a real-time OS. 9. The centralized remote controller according to claim 7, wherein the terminal is connected to software in Java language which is software to be transmitted to the terminal by a Java Native Interface (JNI) serving as an interface.

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