The present invention relates to a control system arranged to overlap a high-frequency signal on a power line when performing communications on a power line.
The conventional air conditioning system is composed to have one or more outdoor units, one or more indoor units, a three-phase and a single-phase power lines for supplying electric power to these units, a refrigerant piping for exchanging refrigerant between the indoor units and the outdoor units, a bus wiring transmission line for exchanging control information between the indoor units and the outdoor units, and a remote controller for operating the indoor units. The control information of the air conditioning system includes an indication of on or off of a power supply or “in operation” of the indoor unit, a set room temperature and a current temperature, operating conditions of the outdoor unit and the indoor unit, and so forth. These pieces of data also include a header composed of address information of a transmission source and a receiving destination, a type, a size and a number of a message as well as a trailer such as error-correcting information, all of which are added to the data. The resulting data is communicated in the form of packets. In the conventional air conditioning system, a leased communication line has been provided as its communicating method. Today, it is known that a technology of using the power line for the leased communication line has been developed for saving resources and installing work.
As an electric power communication system of transmitting the high-frequency signal via the power line, the following lighting system has been proposed. A plurality of branch power lines are secured as communication regions by separating them with a blocking filter. A gate way is located to and connected with each of these communication areas and a high-speed communication line is connected between the gate ways so that the control information may be exchanged between the outside and the inside of the communication region. See the Japanese Official Gazette of JP-A-02-281821 which shows the load controlling (PLC) in the lighting system. This document does not concern the air conditioning system wherein communications are concentrated. As a power line of the lighting system, a high-speed leased communication line is used because the communication capacity required for communicating data between the gateways in the communication based on the power line (referred to as the power line communication) is not enough. In the air conditioning system, however, the communication capacity of the system is determined not from the communications traffic between the similar communication regions but from the communications traffic between the indoor unit and the outdoor unit. Hence, the power line of the lighting system does not hold true to the air conditioning system as it is. Further, the power line communication to a large-scaled air conditioning system and the communications between different phases are disclosed as well. This technology is arranged to connect a power line communication area of an outdoor unit having a three-phase power line as a communication path and a power line communication area of an indoor unit having a single-phase power line as a communication path through a bridge in a wireless or a wired manner with the leased communication path. (See the Official Gazette of JP-A-2002-243248.)
The work of installing the air conditioning system includes a work of wiring a power line, a refrigerant piping work, and a work of installing an air conditioning machine. The topology of the wiring and piping is different in each work, so that the renewal work is so complicated. The air conditioning system arranged to use the power line as transmission means is restrictive in its transmission rate and topology. This leads to a disadvantage of lowering the response and making the overall system more costly because of a special connecting means to be required therefor.
It is an object of the present invention to provide an air conditioning system arranged to use a power line as communication means which saves resources and installing work.
In carrying out the object of the invention, according to an aspect of the invention, the air conditioning system having an indoor unit, an outdoor unit, and a central controller for controlling the indoor unit or the outdoor unit and arranged to establish communication between the indoor unit and the outdoor unit with a signal transmitted through a power line supplying an electric power, comprises:
Other objects, features and advantages of the invention will become apparent from the following description of the embodiments of the invention taken in conjunction with the accompanying drawings.
The first embodiment of the present invention will be described with reference to FIGS. 1 to 7.
In
In this embodiment, the air conditioning system includes a plurality of outdoor units 1a to 1c, each of which is supplied with electric power through the three-phase power line 13. Further, the outdoor units 1a, 1b and 1c are operated to supply and recover refrigerant to and from the corresponding indoor units 2a to 21 through the refrigerant pipings 3a, 3b and 3c. Further, the outdoor units 1a to 1c are connected with the central controller 7 and the gateway 8 through the transmission line 9 so that all of them may compose a high-speed communication area. Moreover, these outdoor units are installed to form one or more installing areas such as a rooftop of a building or a underground outside of a building, which are remote from the indoor units. In this embodiment, the transmission line 9 and the connecting wire between the transmission areas correspond to a leased communication line.
On the other hand, the indoor units are divided into three groups, that is, a group of 2a, 2b, 2c, 2d, another group of 2e, 2f, 2g, 2h, and the other group of 2i, 2j, 2k, 21 according to the refrigerant systems. These groups are connected with the refrigerant pipings 3a, 3b, 3c and the branch power lines 6a, 6b, 6c, respectively. The indoor unit includes the power line communication device built therein. Physically, hence, these indoor units are not required to directly connect with the transmission line or the wire connecting between the communication areas. The groups of these indoor units are located in the corresponding installing area in the building. These installing areas are remote from each other by several meters.
The three systems of the brunch power lines 6a, 6b, 6c are prepared for the refrigerant pipings 3a, 3b, 3c, respectively. These branch power lines 6a, 6b, 6c are connected with the single-phase power line 15 through the blocking filters 5a, 5b, 5c respectively so that commercial electric power may be supplied to the indoor units. Further, the branch power lines 6a, 6b, 6c are connected with the bridges 4a, 4b, 4c, respectively. Hence, the modulated high-frequency transmission signal, that is, the signal to be communicated on the power line is overlapped with the commercial supply voltage when the commercial supply voltage is applied to the branch power lines 6a, 6b and 6c.
At an operation control mode (S160), the outdoor unit executes three functions. The outdoor unit is communicating with the indoor unit of the same refrigerant system so that the outdoor unit may control the heat exchanger and the fan located inside the body of the outdoor unit based on the operation control information of the indoor unit such as the remote controller operation information, the room temperature, and the refrigerant temperature. When a request for communication is given by the operation and the communication (S181), the information of the outdoor unit is transmitted (S182). If the request for control is given in response (S161), the outdoor unit executes the self-diagnosis over the request, and then the result is reported to the other connecting units through the communication line.
The central controller 7 is a system controlling device for obtaining information of the overall system and controlling the system.
The communicating connection of the indoor unit controller 201 is formed as follows. The controller 201 of the indoor unit starts from the power line modem 204, passes through the transmission terminal 205, the branch power line, the bridge, the connecting wire 10 between the communication areas, and the transmission line 9, and then reaches the corresponding outdoor unit. The indoor unit controller 201 computes the driving conditions of the body of the outdoor unit, that is, the refrigerant heat exchanger and the compressor based on the information sent from the outdoor unit such as the refrigerant temperature and the refrigerant pressure, the remote controller operation information, and the room temperature so that the indoor unit controller 201 controls the body of the outdoor unit. The power supply circuit 208 is connected with the branch power line through the impedance upper 209 so that the power supply circuit 208 may supply the internal block of the indoor unit with electric power. The impedance upper 209 is served as a filter of modifying an AC impedance and noises of the power supply 208 into a prescribed value. It may be located if necessary. The impedance upper 209 may be left out depending on the outdoor unit impedance and the performance of the power line modem.
At an operation control mode (S260), the indoor unit is communicating with the outdoor unit belonging to the same refrigerant system so that the indoor unit may control the heat exchanger and the fan located inside the body of the indoor unit and the air direction based on the operation control information (such as the remote controller operation information, the room temperature, and the refrigerant temperature) of the indoor unit. If the request for communication (S281) is given by the operation and the communication, the information of the indoor unit is transmitted (S282). If the request for control (S271) is responded, the indoor unit is controlled (S272). If the communication is terminated for a certain length of time (S261), the indoor unit executes the self-diagnosis and then reports the result to the other connecting units through the communication line (S262).
Further, in the bridge 4, only the data oriented to the indoor unit connected with the branch power line is passed from the leased communication line side to the branch power wire side. This results in reducing the number of data pieces on the branch power line. This makes it possible to keep the high-speed leased communication line and the slow branch power line coexistent in the same system.
The communicating connection of the microcomputer 401 is formed as follows. The microcomputer 401 starts from the high-speed communication device (modem) 404, passes through the terminal 405, the connecting wire 10 between the communication areas, and the leased transmission line 9, and then reaches another outdoor unit, the central controller 7, and the gateway 8. Further, the microcomputer 401 causes the power line communication device (modem) 406 to connect the indoor unit through the terminal 407 and the branch power line. Of course, this bridge is connected with another bridge 4 through the connecting wire 10 between the communication areas. However, the main object of the air conditioning system is to execute the communication in the same refrigerant system. Basically, therefore, the bridge is not required to communicate with another bridge for the purpose of control. In addition, since the communication is executed in the bus-connection arranged to use the same transmission medium, the access to the bus may be monitored because the access control is required.
At an operation control mode (S460), when the indoor unit issues a request for communication (S471), the bridge transfers the received information to the indoor unit (S472). When the request for transmitting the information is sent to the bridge by the indoor unit (S481), the bridge transfers the received information to the outdoor unit (S482). If no communication is given for a certain length of time (S461), the bridge executes the self-diagnosis and then reports the result to the other connecting devices (S462). The main function of the bridge is to transfer the communication information. Hence, the bridge is required to register the communication terminal address of the destination. This registration is executed in the address inquiry included in the initial sequence of the central controller of the outdoor unit.
The features of the first embodiment of the present invention are as follows.
(1) The leased communication device (modem) is applied to the outdoor unit and the power line communication device (modem) is applied to the indoor unit. This allows the communication device to be assigned to the proper side.
(2) The location of the blocking filter in each branch power line makes it possible to divide the power line communication area.
(3) The connecting wire 10 between the communication areas is routed as the high-speed transmission lines through the bridges and then connected with the transmission line 9 of the outdoor installing area.
(4) The transmission system adopts a bus system in which a pair of wires are routed with lots of communication devices.
(5) In the air conditioning system, the indoor units are grouped at each setting area. From this feature, the installed indoor unit group coincides with the branch wire in topology. It means that the refrigerant piping forms the same topology as the branch power line.
As described above, the application of the power line communication device (modem) to the indoor unit side makes it possible to remove the transmission line on the indoor unit side. This results in reducing the istalling steps of the indoor units by two-thirds, that is, the steps about the power line and the refrigerant piping. Since the refrigerant piping has the same topology as the power line, both of them may be installed at a time or along the preceding installation. This makes the attaching work easier.
In the conventional air conditioning system, the power line for the air conditioning system is used in common with for the other electric power load of the house builder, while the refrigerant piping and the transmission line both of which are leased to the air conditioners are installed together. This may bring about an overlap of the transmission lines installed from the outdoor unit installing area to the indoor unit installing area or causes an installing worker to be perplexed in selecting the transmission line. On the other hand, in this embodiment, just one connecting wire 10 between the communication areas is used. This makes the working plan more clear and economical.
Further, in the conventional air conditioning system, the transmission line takes a routing system, while the power line and the refrigerant piping are installed in common. Hence, the former and the latter are different from each other in wiring topology. In performing the renewal work of changing the indoor unit to a new one and modifying a part of the indoor unit, once the wires of the indoor units are disconnected, it is quite difficult to find the connecting terminals again. In actual, after all, the renewal of the conventional air conditioning system is revised. In this embodiment, since the power line communication is used, the power line and the refrigerant piping may be reused, which makes the renewal work more economical.
Further, since the use of the connecting wire 10 between the communication areas for the transmission line allows the branch lines to be routed, the transmission line among the indoor units may be removed. Further, though it has been difficult to reproduce the chain of the transmission line, the transmission line is routed to the bridges. This eliminates the necessity of the work about the indoor units in the renewal work, which leads to greatly saving the wiring work and thereby making the overall work more economical.
The conventional air conditioning system arranged to use the power line as transmitting means is restrictive in transmission speed and topology. For example, the practical transmission speed of the power line is about 5 kbps or less, which is about half as slow as the transmission speed of the conventional air conditioning system. It means that the use of the power line results in lowering the response, that is, the service. Further, the air conditioning system is arranged so that the outdoor unit is connected with the three-phase power line and the indoor unit is connected with the single-phase power line. These power lines are separated from each other from a viewpoint of the characteristics of the large electric power transformer. This thus needs a special connecting means, that is, a connection between the different phase power lines. In order to use the power line communication on the side of the outdoor unit in which a great electric power is consumed, the blocking filter with a large volume is required to be used, which disadvantageously leads to raising the overall cost.
In the general power line communication, a high-frequency signal is overlapped with the electric power passing through the power line where noises are often caused by the power supply or the on or off switching thereof when the signal is in transmission. Hence, this communication system is slower in transmission speed than the conventional communication device arranged to use the leased transmission line. In this example, it is made lower by one-fourth. The replacement of the conventional communication device with the power line communication device in a one-to-one manner disadvantageously causes the power line communication system to lower the operating response, that is, the service performance than the conventional system. In order to overcome this disadvantage, this embodiment is arranged to transmit the communication information of the indoor units to the outside units through the high-speed leased wires in a bridged manner. Hence, even though the communication speed of the branch wire is slow, the power line communication system enables to keep the service performance constant without having to lower the communication speed of the overall system.
Though the bridge and the blocking filter may be fitted in the distribution board, if the connecting wire 10 between the communication areas is routed together with the single-phase power line 15 between the distribution boards, the electric engineers are in charge of a part of the leased wire to the air conditioner. The location of the bridge between the distribution board and the first indoor unit to be connected with the power wire eliminates the necessity of routing the connecting wire 10 to the distribution board only if the connecting wire 10 is routed around together with the refrigerant piping by the same working method as the conventional work. This results in making the workability more excellent.
In turn, the description will be oriented to the second embodiment of the present invention with reference to FIGS. 8 to 11.
Each of the indoor units 500a to 500d has the same arrangement as the conventional indoor unit. The indoor unit supplies the transmission data and the electric power through the effect of the adapter 600.
The feature of the second embodiment of the present invention is as follows.
The foregoing arrangement allows the conventional indoor unit to be built in the air conditioning system according to the present invention. That is, the manufactured or the existing indoor units may be used in the present air conditioning system. However, the various ways of use may be considered. For example, the indoor units intended for the air conditioning system of the present invention and the conventional indoor units may be mixedly built in the present air conditioning system when all the indoor units are newly installed in the building. Further, when installing the present air conditioning system in the building, some of the already installed indoor units are left and the conventional indoor units may be connected therewith through the adapter 600. Moreover, this adapter allows the indoor units of the air conditioning system of the present invention to be installed in the existing air conditioning system. That is, when updating the air conditioning system, it is not necessary to consider the complicated transmission wires among the indoor units, which brings about the effect of reducing the topology difference in the conventional three attaching work processes by two-thirds. In addition, the adapter allows the indoor unit 2 to be connected with the conventional system.
Further, the indoor units on the conventional transmission line may be connected to the power line communication system with the protocol converting unit added thereto. This may offer the same effect. Moreover, the indoor units on the power line communication system may be connected to the conventional transmission line with the protocol converting unit added thereto. This may offer the same effect.
According to this embodiment, the air conditioner arranged to use the transmission line for the data communication may be communicated with the air conditioner arranged to use the power line for the data communication. This makes it possible to install the air conditioner arranged to use the power line for the data communication when replacing only some air conditioners in the building where the air conditioning system arranged to use the transmission line for the data communication have been installed.
Further, the use of a slow power line communication device also makes it possible to realize the substantially same communication throughput as the conventional system. This enables to save the necessary wires without having to lower the service.
Moreover, provision of a network ID indicator in each bridge and each outdoor unit makes it easier to perform the refrigerant system settings. (The settings may be reduced in the setting of bridge location=indoor unit location).
The central controller and the WAN-connecting GW device, which have been conventionally used in the air conditioning system, may be connected with the high-speed communication path. This is effective in keeping the same service level as the conventional air conditioning system.
According to the present invention, the air conditioning system may be arranged to use the power line for the data communication and thereby saves the necessary resources and installing work.
It should be further understood by those skilled in the art that although the foregoing description has been made on embodiments of the invention, the invention is not limited thereto and various changes and modifications may be made without departing from the spirit of the invention and the scope of the appended claims.
Number | Date | Country | Kind |
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2003-109709 | Apr 2003 | JP | national |