JP3159516B2 - Air conditioner relay communication device - Google Patents
Air conditioner relay communication deviceInfo
- Publication number
- JP3159516B2 JP3159516B2 JP10085692A JP10085692A JP3159516B2 JP 3159516 B2 JP3159516 B2 JP 3159516B2 JP 10085692 A JP10085692 A JP 10085692A JP 10085692 A JP10085692 A JP 10085692A JP 3159516 B2 JP3159516 B2 JP 3159516B2
- Authority
- JP
- Japan
- Prior art keywords
- transmission line
- transmission
- data
- relay
- air conditioner
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Fee Related
Links
Landscapes
- Air Conditioning Control Device (AREA)
Description
【0001】[0001]
【産業上の利用分野】本発明は空気調和機の伝送路に挿
入し、2系統に分離された伝送路を結ぶための中継通信
装置に関する。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a relay communication device which is inserted into a transmission line of an air conditioner and connects a transmission line separated into two systems.
【0002】[0002]
【従来の技術】近年、機器間での協調制御を行うための
伝送路において、伝送路上の接続機器の増設、伝送路の
距離の延長を行う場合や、通信方式の異なる伝送路を結
び付ける場合に、2つの伝送路を接続するための中継通
信装置が提案されている(例えば、特開昭63−123
240号公報)。2. Description of the Related Art In recent years, in a transmission line for performing cooperative control between devices, there is a need to increase the number of connected devices on the transmission line, extend the distance of the transmission line, or link transmission lines of different communication systems. A relay communication device for connecting two transmission paths has been proposed (for example, Japanese Patent Application Laid-Open No. 63-123).
No. 240).
【0003】以下、この従来の中継通信装置を用いて構
成された空気調和機について説明する。図5は従来の空
気調和機である。Aは伝送路1上の第1の空気調和機、
Bは伝送路2上の第2の空気調和機、A11、A12は
第1の空気調和機A側の室内機、A13は室外機であ
る。A21、A22は第2の空気調和機B側の室内機、
A23は室外機である。[0003] Hereinafter, an air conditioner configured using this conventional relay communication device will be described. FIG. 5 shows a conventional air conditioner. A is the first air conditioner on transmission line 1,
B is a second air conditioner on the transmission line 2, A11 and A12 are indoor units on the first air conditioner A side, and A13 is an outdoor unit. A21 and A22 are indoor units on the second air conditioner B side,
A23 is an outdoor unit.
【0004】Dは第1の空気調和機Aと第2の空気調和
機Bを接続する従来の中継通信装置であり、室内機A1
1,A12,室外機A13は伝送路1に接続され、室内
機A21,A22,室外機A23は伝送路2に接続され
ている。伝送路1,2は中継通信装置Dと接続されてい
る。A31はこの空気調和機のシステムを一括に制御す
る集中制御装置であり、伝送路1に接続されている。[0004] D is a conventional relay communication device for connecting the first air conditioner A and the second air conditioner B, and includes an indoor unit A1.
1, A12 and the outdoor unit A13 are connected to the transmission line 1, and the indoor units A21, A22 and the outdoor unit A23 are connected to the transmission line 2. The transmission paths 1 and 2 are connected to the relay communication device D. A31 is a centralized control device that controls the air conditioner system collectively, and is connected to the transmission line 1.
【0005】図6は図5における中継通信装置Dの回路
ブロック図を示す。図においてD11は第1の空気調和
機A側との通信において受信を行う第1受信手段で、D
12は送信を行う第1送信手段である。D21は第2の
空気調和機B側との通信において受信を行う第2受信手
段で、D22は送信を行う第2送信手段である。D30
は第1と第2送信および受信の手段D11,D12,D
21,D22を接続する交換手段でCPUにより構成さ
れており、第1受信手段D11からの信号は第2送信手
段D22に接続されており、第2受信手段D21からの
信号は第1送信手段D12に接続されており、互いに交
換手段で交差した配線となっている。FIG. 6 is a circuit block diagram of the relay communication device D in FIG. In the figure, D11 is a first receiving means for performing reception in communication with the first air conditioner A side.
Reference numeral 12 denotes a first transmission unit that performs transmission. D21 is a second receiving unit that performs reception in communication with the second air conditioner B side, and D22 is a second transmitting unit that performs transmission. D30
Are the first and second transmitting and receiving means D11, D12, D
21 and D22 are connected by a CPU. The signal from the first receiving unit D11 is connected to the second transmitting unit D22, and the signal from the second receiving unit D21 is connected to the first transmitting unit D12. And are interconnected with each other by the exchange means.
【0006】このような構成の中継通信装置Dを用い
て、実際に第1の空気調和機Aの伝送路1上の通信デー
タは、第1受信手段D11から交換手段D30入力され
ると、その通信データは第2送信手段D22により伝送
路2上に送信される。また、第2の空気調和機Bの伝送
路2上の通信データは、第2受信手段D21から交換手
段D30を経由て、第1送信手段D12により伝送路1
上に送信されるのである。When the communication data on the transmission line 1 of the first air conditioner A is actually input from the first receiving means D11 to the exchange means D30 using the relay communication apparatus D having such a configuration, the data is transmitted. The communication data is transmitted on the transmission path 2 by the second transmission means D22. The communication data on the transmission line 2 of the second air conditioner B is transmitted from the second reception unit D21 via the exchange unit D30 to the transmission line 1 by the first transmission unit D12.
It is sent above.
【0007】この場合、伝送路1上の通信データと伝送
路2上の通信データのデータ構成や内容が同じ場合であ
れば良いが、異なる場合は、一方の伝送路から他方の伝
送路に送信する場合は、通信データのデータ構成や内容
を他方の伝送路上のデータに変換しなくては成らない。
この変換をする際は、交換手段D30は受信した通信デ
ータを他方の伝送路上の通信データに直接変換し、その
送信手段を介して送信していた。In this case, the communication data on the transmission line 1 and the communication data on the transmission line 2 only need to have the same data configuration and content. If they are different, the transmission data is transmitted from one transmission line to the other transmission line. In such a case, the data structure and contents of the communication data must be converted to data on the other transmission path.
When performing this conversion, the exchange means D30 directly converts the received communication data into communication data on the other transmission line and transmits the data via the transmission means.
【0008】[0008]
【発明が解決しようとする課題】しかしながら上記従来
の空気調和機の中継通信装置では、伝送路1又は伝送路
2上の通信データのデータ構成が、一方が変わるたび
に、交換手段D30の処理内容を変えなければならない
という問題点があった。However, in the above-mentioned conventional relay communication device for an air conditioner, the processing contents of the exchange means D30 each time one of the data structures of the communication data on the transmission line 1 or the transmission line 2 changes. Had to be changed.
【0009】本発明は、上記課題を鑑み、空気調和機の
伝送路に挿入し、2系統に分離された伝送路を結ぶため
の中継通信装置で、2系統の伝送路上の通信データの中
継を行う際の相手側への通信データの受け渡しを容易に
行い、伝送路上の接続機器が運転状態を的確に把握する
ことができることを目的とする。In view of the above problems, the present invention is a relay communication device which is inserted into a transmission line of an air conditioner and connects a transmission line divided into two systems, and relays communication data on the two transmission lines. It is an object of the present invention to facilitate the transfer of communication data to a partner when performing the operation, and to enable the connected device on the transmission path to accurately grasp the operation state.
【0010】[0010]
【課題を解決するための手段】この課題を解決するため
に、本発明の空気調和機の中継送信装置は、送受信手段
を有する複数台の室内機と、室外機と、集中制御装置が
1つの伝送線にて接続されている空気調和機で、前記伝
送路を第1の伝送路と第2の伝送路を分離し、前記第1
の伝送路と前記第2の伝送路間で通信データの交換を行
う中継通信装置であって、前記第1の伝送路と接続し、
伝送路上で信号を送受信するための第1送受信手段と、
前記第1送受信手段と接続され送受信号を処理する第1
CPUと、前記第2の伝送路と接続し、伝送路上で信号
を送受信をするための第2送受信手段と、前記第2送受
信手段と接続され送受信号を処理する第2CPUと、前
記第1CPUと前記第2CPUとに接続され、両CPU
から通信データの読み書きが可能な中継メモリーとから
なり、前記第1の伝送路と前記第2の伝送路間で通信デ
ータを交換する場合において、前記第1の伝送路から前
記第2の伝送路に通信データを交換する際、前記第1送
受信手段から受信した信号を前記第1CPUは受信デー
タを前記第1CPUと前記第2CPUの両方で共通に解
読可能な中間データに変換し、そのデータを前記中継メ
モリーに書き込み、その書き込まれた中間データを前記
第2CPUが読み、前記第2の伝送路上の信号に合う様
に変換し前記第2送受信手段より信号を送信し、また、
前記第2の伝送路から前記第1の伝送路に通信データを
交換するときも同様にして行うように構成したのであ
る。In order to solve this problem, a relay transmission device for an air conditioner according to the present invention comprises a plurality of indoor units having transmission / reception means, an outdoor unit, and a centralized control device. In the air conditioner connected by a transmission line, the transmission line is separated into a first transmission line and a second transmission line.
A relay communication device for exchanging communication data between the transmission line and the second transmission line, wherein the relay communication device is connected to the first transmission line,
First transmission / reception means for transmitting / receiving a signal on a transmission path;
A first unit connected to the first transmission / reception unit for processing transmission / reception
A second transmission / reception means connected to the second transmission path for transmitting / receiving signals on the transmission path; a second CPU connected to the second transmission / reception means for processing transmission / reception signals; Both CPUs connected to the second CPU
And a relay memory capable of reading and writing communication data from the first transmission line and the second transmission line when exchanging communication data between the first transmission line and the second transmission line. When exchanging communication data, the first CPU converts a signal received from the first transmission / reception means into intermediate data that can be commonly decoded by both the first CPU and the second CPU, and converts the data into the intermediate data. Writing to the relay memory, the second CPU reads the written intermediate data, converts the intermediate data to match the signal on the second transmission path, and transmits the signal from the second transmission / reception means;
The communication data is exchanged from the second transmission path to the first transmission path in the same manner.
【0011】また、さらに中継送信装置が、中継メモリ
ーのデータ構成を伝送路の室内機、室外機、集中制御装
置の各機器ごとに割り当てるように構成したのである。Further, the relay transmitting device is configured to allocate the data configuration of the relay memory to each of the indoor unit, the outdoor unit, and the centralized control device of the transmission path.
【0012】また、さらに中継通信装置が、伝送路の室
内機、室外機、集中制御装置の各機器ごとに割り当てら
れた中継メモリーのデータを定期的に伝送線上に通信す
るように構成したのである。Further, the relay communication device is configured to periodically transmit data in the relay memory allocated to each of the indoor unit, the outdoor unit, and the centralized control device on the transmission line on the transmission line. .
【0013】[0013]
【作用】上記構成により、中継通信装置は第1の空気調
和機の伝送路上の通信データを第2の空気調和機の伝送
路上に交換を行う際に、第1送受信手段から受信した信
号を第1CPUは受信データを1度中継データに変換
し、そのデータをメモリーに書き込み、そのデータを第
2CPUが読み、第2の伝送路上の信号に合う様に変換
し、第2送受信手段より信号を送信する。また、第2の
伝送路から第1の伝送路に通信データを交換するときも
同様にして行うのである。With the above arrangement, the relay communication device transmits a signal received from the first transmitting / receiving means to the second air conditioner when exchanging communication data on the transmission line of the first air conditioner on the transmission line of the second air conditioner. One CPU converts the received data into relay data once, writes the data into the memory, reads the data by the second CPU, converts the data to match the signal on the second transmission path, and transmits the signal from the second transmitting / receiving means. I do. Further, the same operation is performed when communication data is exchanged from the second transmission line to the first transmission line.
【0014】これにより、第1の伝送路又は第2の伝送
路上の通信データのデータフレームの構成が変わった場
合は、変わった伝送路のCPUの処理を変えるだけで良
く、変化していない側のCPUは従来のままでよいので
ある。Thus, when the configuration of the data frame of the communication data on the first transmission path or the second transmission path changes, it is only necessary to change the processing of the CPU on the changed transmission path. Can be used as is.
【0015】また、中継メモリーのデータ構成を伝送路
の室内機、室外機、集中制御装置の各機器ごとに割り当
てることにより、送信を必要とする機器が容易に判別さ
れる。By allocating the data configuration of the relay memory to each of the indoor unit, the outdoor unit, and the centralized control unit of the transmission path, it is possible to easily determine a device that needs transmission.
【0016】さらに、中継メモリーのデータを定期的に
伝送線上に通信することにより、伝送路上の室内機、室
外機、集中制御装置の各機器の状態を各接続機器が容易
に把握することが出来るので、例えば、室内機、室外機
の運転状態と、集中制御装置内の各室内機の運転状態が
異なるということが無くなるのである。Furthermore, by periodically communicating the data of the relay memory on the transmission line, each connected device can easily grasp the state of each device of the indoor unit, the outdoor unit, and the centralized control device on the transmission line. Therefore, for example, the operating state of the indoor unit and the outdoor unit does not differ from the operating state of each indoor unit in the centralized control device.
【0017】[0017]
【実施例】以上本発明の一実施例の空気調和機につい
て、図面を参照しながら説明する。図1は本発明の一実
施例における空気調和機のシステム構成図、図2は本発
明の一実施例の空気調和機の中継通信装置のブロック回
路図、図3は本実施例を示す動作フローチャート、図4
は本実施例の空気調和機の中継通信装置における中継メ
モリーの記憶状態図である。尚、従来と同一構成のもの
については同一符号を付してその説明を省略する。An air conditioner according to an embodiment of the present invention will be described with reference to the drawings. 1 is a system configuration diagram of an air conditioner according to one embodiment of the present invention, FIG. 2 is a block circuit diagram of a relay communication device of the air conditioner according to one embodiment of the present invention, and FIG. 3 is an operation flowchart illustrating the present embodiment. , FIG.
FIG. 3 is a storage state diagram of a relay memory in the relay communication device of the air conditioner of the present embodiment. The same components as those of the related art are denoted by the same reference numerals, and description thereof is omitted.
【0018】図1において、Aは第1の空気調和機、B
は第2の空気調和機であり、Cは中継通信装置である。In FIG. 1, A is the first air conditioner, B
Is a second air conditioner, and C is a relay communication device.
【0019】図2は図1における中継通信装置Cのブロ
ック回路図を示す。図においてC11は第1の空気調和
機A側の伝送路1上の通信において受信を行う第1受信
手段で、C12は送信を行う第1送信手段である。C2
1は第2の空気調和機B側の伝送路上の通信において受
信を行う第2受信手段で、C22は送信を行う第2送信
手段である。FIG. 2 is a block circuit diagram of the relay communication device C in FIG. In the figure, C11 is first receiving means for receiving in communication on the transmission path 1 on the first air conditioner A side, and C12 is first transmitting means for transmitting. C2
Reference numeral 1 denotes second receiving means for performing reception in communication on the transmission path on the second air conditioner B side, and C22 denotes second transmitting means for performing transmission.
【0020】C10は第1受信手段C11と第1送信手
段C12と接続され、伝送路1上の通信を行う第1CP
Uである。C20は、第2受信手段C21,第2送信手
段C22と接続され伝送路2上の通信を行う第2CPU
である。C30は第1CPUC10と第2CPUC20
に接続され、交互に受信データを交換する中継データの
メモリーである。C10 is connected to the first receiving means C11 and the first transmitting means C12, and performs a first CP for performing communication on the transmission line 1.
U. C20 is a second CPU connected to the second receiving unit C21 and the second transmitting unit C22 and performing communication on the transmission path 2.
It is. C30 is a first CPUC10 and a second CPUC20.
And a memory for relay data that alternately exchanges received data.
【0021】以上のように構成された本実施例の空気調
和機について、図3,図4を参照しながら以下に説明す
る。まず、電源投入後、中継通信装置Cは伝送路1と伝
送路2上の通信データを第1受信手段C11と第2受信
手段C21により受信する(STEP1)。The air conditioner of the present embodiment configured as described above will be described below with reference to FIGS. First, after the power is turned on, the relay communication device C receives communication data on the transmission line 1 and the transmission line 2 by the first receiving unit C11 and the second receiving unit C21 (STEP 1).
【0022】次に、通信データを受けた第1CPUC1
0は、その通信データの内容を中間データに変換し、そ
の中間データを中継メモリーC30に書き込む。この書
き込んだデータの内容を図4に示す。図に示す様に、機
器のアドレスごとにデータのメモリーを割当、その中に
中間データとして、例えば、暖房であれば22コードの
様に書き込むのである(STEP2)。Next, the first CPU C1 receiving the communication data
0 converts the contents of the communication data into intermediate data and writes the intermediate data into the relay memory C30. FIG. 4 shows the contents of the written data. As shown in the figure, a memory for data is allocated for each address of the device, and the data is written therein as intermediate data, for example, in the case of heating, such as 22 codes (STEP 2).
【0023】第2CPUC20は、第1CPUC10か
ら書き込まれた中間データを読み取り、このデータを送
信する機器に対して、伝送路2上の通信データに変換す
る(STEP3)。The second CPUC20 reads the intermediate data written from the first CPUC10, and converts the intermediate data into communication data on the transmission line 2 for the device transmitting the data (STEP3).
【0024】この通信データは、第2送信手段C22と
より互いに伝送路上に送信される。同様にして、第2C
PUC20から第1CPUC10に対しても行なわれる
(STEP4)。This communication data is transmitted to the transmission path by the second transmission means C22. Similarly, the second C
This is also performed from the PUC 20 to the first CPU C10 (STEP 4).
【0025】また、通信データの交換とは別に、中継通
信装置Cは先ほどの中継メモリーC30より伝送路上に
接続されている機器の運転情報を読み出し、一定期間ご
とに図4に示すメモリーの内容を読み出す(STEP
5)。Apart from the exchange of communication data, the relay communication device C reads the operation information of the devices connected on the transmission line from the relay memory C30, and updates the contents of the memory shown in FIG. Read (STEP
5).
【0026】第1CPUC10,第2CPUC20は、
中継メモリーC30より読み出したデータを、送信デー
タに変換し、それぞれの伝送線1,2上に送信する(S
TEP6)。The first CPUC10 and the second CPUC20 are:
The data read from the relay memory C30 is converted into transmission data and transmitted on the respective transmission lines 1 and 2 (S
TEP6).
【0027】室内機A11,A12,A21,A22、
室外機A13,A23、集中制御装置A31は、この一
定期間ごとに送信されている通信データより、それぞれ
関係のある情報を読み込み、制御対象の機器の状態を検
知し、機器間での協調制御を行うのである。The indoor units A11, A12, A21, A22,
The outdoor units A13, A23, and the centralized control device A31 read related information from the communication data transmitted at regular intervals, detect the state of the device to be controlled, and perform cooperative control between the devices. Do it.
【0028】また、伝送路上の通信データで相手側の伝
送路に交換する必要があるかの判定行う場合に、中継メ
モリーC30に記憶されている相手側伝送路の接続機器
の状態を読み出すことにより、接続機器が存在する場合
に交換を行うことが可能となるので、必要な通信データ
だけを相手側の伝送路に送信することができるのであ
る。When it is determined whether the communication data on the transmission path needs to be exchanged with the transmission path of the other party, the state of the connected device of the other transmission path stored in the relay memory C30 is read. Since the exchange can be performed when the connected device exists, only necessary communication data can be transmitted to the transmission path of the other party.
【0029】さらに、各CPUC10,C20は通信デ
ータを中継データに変換し、相手側に伝えることによ
り、互いに相手側伝送路上の通信データを知ることなく
交換できるのある。Further, the CPUs C10 and C20 can exchange communication data without knowing communication data on the transmission line of the other party by converting the communication data into relay data and transmitting it to the other party.
【0030】また、機器別に交換情報のメモリーを割り
当てるので、送信する機器の番号を容易に判別すること
ができるのである。Further, since the exchange information memory is allocated to each device, the number of the device to be transmitted can be easily determined.
【0031】[0031]
【発明の効果】以上のように本発明の空気調和機の中継
通信装置は、第1の伝送路と第2の伝送路間で通信デー
タを交換する場合において、前記第1の伝送路から前記
第2の伝送路に通信データを交換する際、第1送受信手
段から受信した信号を第1CPUは受信データを前記第
1CPUと第2CPUの両方で共通に解読可能な中間デ
ータに変換し、そのデータを中継メモリーに書き込み、
その書き込まれた中間データを前記第2CPUが読み、
前記第2の伝送路上の信号に合う様に変換し第2送受信
手段より信号を送信し、また、前記第2の伝送路から前
記第1の伝送路に通信データを交換するときも同様にし
て行うように構成しので、互いに相手側の通信データの
構成を意識することなく交換でき、また、1方の通信デ
ータの構成が変更されても、その変更されたCPUの処
理を変えるだけで良い。As described above, the relay communication device for an air conditioner according to the present invention, when exchanging communication data between the first transmission line and the second transmission line, transmits the communication data from the first transmission line to the second transmission line. When exchanging communication data to the second transmission path, the first CPU converts a signal received from the first transmission / reception means into intermediate data which can be commonly decoded by both the first CPU and the second CPU, To the relay memory,
The second CPU reads the written intermediate data,
The signal is converted to match the signal on the second transmission line, the signal is transmitted from the second transmission / reception means, and the communication data is exchanged from the second transmission line to the first transmission line in the same manner. Since the configuration is such that the communication data configuration of the other party can be exchanged without being aware of the configuration, even if the configuration of one communication data is changed, it is only necessary to change the processing of the changed CPU. .
【0032】さらに、中継メモリーのデータ構成を第1
と第2の空気調和機の構成機器ごとに割り当てることに
より、送信をする機器が容易に判別される。Further, the data structure of the relay memory is first
Is assigned to each component device of the second air conditioner, and the device that transmits the data is easily determined.
【0033】さらに、中継メモリーのデータを定期的に
伝送線上に通信することにより伝送線上の室内機、室外
機、集中制御装置の各機器の運転状態を各機器が容易に
把握できるという効果がある。Further, by periodically communicating the data of the relay memory to the transmission line, there is an effect that each device can easily grasp the operation state of each of the indoor unit, the outdoor unit and the centralized control device on the transmission line. .
【図面の簡単な説明】[Brief description of the drawings]
【図1】本発明の空気調和機の中継装置の一実施例を適
用する空気調和機のシステム構成図FIG. 1 is a system configuration diagram of an air conditioner to which an embodiment of an air conditioner relay device of the present invention is applied.
【図2】同実施例の空気調和機の中継通信装置のブロッ
ク回路図FIG. 2 is a block circuit diagram of a relay communication device of the air conditioner of the embodiment.
【図3】同実施例の空気調和機の中継通信装置の動作を
示すフローチャートFIG. 3 is a flowchart showing the operation of the relay communication device of the air conditioner of the embodiment.
【図4】(a)同実施例の空気調和機の中継通信装置に
おける中継メモリーの第1CPU側の記憶状態図 (b)同実施例の空気調和機の中継通信装置における中
継メモリーの第2CPU側の記憶状態図FIG. 4A is a diagram showing the storage state of a relay memory in a relay communication device of the air conditioner of the embodiment on the first CPU side. FIG. Memory state diagram
【図5】従来の空気調和機のシステム構成図FIG. 5 is a system configuration diagram of a conventional air conditioner.
【図6】従来の空気調和機のシステムの中継通信装置の
ブロック回路図FIG. 6 is a block circuit diagram of a relay communication device of a conventional air conditioner system.
A31 集中制御装置 A11,A12,A21,A22 室内機 A13,A23 室外機 C 中継通信装置 C10 第1CPU C11 第1受信手段 C12 第1送信手段 C20 第2CPU C21 第2受信手段 C22 第2送信手段 C30 中継メモリー A31 Centralized control device A11, A12, A21, A22 Indoor unit A13, A23 Outdoor unit C Relay communication device C10 First CPU C11 First receiving means C12 First transmitting means C20 Second CPU C21 Second receiving means C22 Second transmitting means C30 Relay memory
Claims (3)
室外機と、集中制御装置が1つの伝送線にて接続されて
いる空気調和機で、前記伝送路を第1の伝送路と第2の
伝送路を分離し、前記第1の伝送路と前記第2の伝送路
間で通信データの交換を行う中継通信装置であって、前
記第1の伝送路と接続し、伝送路上で信号を送受信する
ための第1送受信手段と、前記第1送受信手段と接続さ
れ送受信号を処理する第1CPUと、前記第2の伝送路
と接続し、伝送路上で信号を送受信をするための第2送
受信手段と、前記第2送受信手段と接続され送受信号を
処理する第2CPUと、前記第1CPUと前記第2CP
Uとに接続され、両CPUから通信データの読み書きが
可能な中継メモリーとからなり、前記第1の伝送路と前
記第2の伝送路間で通信データを交換する場合におい
て、前記第1の伝送路から前記第2の伝送路に通信デー
タを交換する際、前記第1送受信手段から受信した信号
を前記第1CPUは受信データを前記第1CPUと前記
第2CPUの両方で共通に解読可能な中間データに変換
し、そのデータを前記中継メモリーに書き込み、その書
き込まれた中間データを前記第2CPUが読み、前記第
2の伝送路上の信号に合う様に変換し前記第2送受信手
段より信号を送信し、また、前記第2の伝送路から前記
第1の伝送路に通信データを交換するときも同様にして
行うように構成したことを特徴とする空気調和機の中継
通信装置。1. A plurality of indoor units having transmitting / receiving means,
An outdoor unit and an air conditioner in which a centralized control device is connected by one transmission line, the transmission line is separated into a first transmission line and a second transmission line, and the first transmission line and the A relay communication device for exchanging communication data between second transmission lines, comprising: a first transmission / reception unit connected to the first transmission line for transmitting / receiving a signal on the transmission line; A first CPU connected to the second transmission line for processing a transmission / reception signal; a second transmission / reception unit connected to the second transmission line for transmitting / receiving a signal on the transmission line; A second CPU, the first CPU and the second CP
U, and a relay memory that can read and write communication data from both CPUs. When exchanging communication data between the first transmission path and the second transmission path, the first transmission When the communication data is exchanged from the first transmission path to the second transmission path, the first CPU receives a signal received from the first transmission / reception means, and converts the received data into intermediate data that can be commonly decoded by both the first CPU and the second CPU. And the data is written into the relay memory, the written intermediate data is read by the second CPU, converted to match the signal on the second transmission path, and a signal is transmitted from the second transmitting / receiving means. A relay communication device for an air conditioner, wherein communication data is exchanged from the second transmission line to the first transmission line in a similar manner.
構成を伝送路の室内機、室外機、集中制御装置の各機器
ごとに割り当てることを特徴とする請求項1記載の空気
調和機の中継通信装置。2. The relay communication of an air conditioner according to claim 1, wherein the relay communication device allocates the data configuration of the relay memory to each of the indoor unit, the outdoor unit, and the centralized control unit of the transmission path. apparatus.
機、集中制御装置の各機器ごとに割り当てられた中継メ
モリーのデータを定期的に伝送線上に通信することを特
徴とする請求項2記載の空気調和機の中継通信装置。3. The relay communication device periodically communicates data in a relay memory assigned to each of an indoor unit, an outdoor unit, and a centralized control unit on a transmission line on a transmission line. 3. The relay communication device for an air conditioner according to 2.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP10085692A JP3159516B2 (en) | 1992-04-21 | 1992-04-21 | Air conditioner relay communication device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP10085692A JP3159516B2 (en) | 1992-04-21 | 1992-04-21 | Air conditioner relay communication device |
Publications (2)
Publication Number | Publication Date |
---|---|
JPH05296542A JPH05296542A (en) | 1993-11-09 |
JP3159516B2 true JP3159516B2 (en) | 2001-04-23 |
Family
ID=14284955
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP10085692A Expired - Fee Related JP3159516B2 (en) | 1992-04-21 | 1992-04-21 | Air conditioner relay communication device |
Country Status (1)
Country | Link |
---|---|
JP (1) | JP3159516B2 (en) |
Families Citing this family (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPH08128713A (en) * | 1994-10-31 | 1996-05-21 | Matsushita Electric Ind Co Ltd | State display device of air conditioner |
JP6605290B2 (en) * | 2015-10-14 | 2019-11-13 | 日立建機株式会社 | Construction machine control equipment |
-
1992
- 1992-04-21 JP JP10085692A patent/JP3159516B2/en not_active Expired - Fee Related
Also Published As
Publication number | Publication date |
---|---|
JPH05296542A (en) | 1993-11-09 |
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