JPH1070774A - Building management system - Google Patents
Building management systemInfo
- Publication number
- JPH1070774A JPH1070774A JP8225679A JP22567996A JPH1070774A JP H1070774 A JPH1070774 A JP H1070774A JP 8225679 A JP8225679 A JP 8225679A JP 22567996 A JP22567996 A JP 22567996A JP H1070774 A JPH1070774 A JP H1070774A
- Authority
- JP
- Japan
- Prior art keywords
- equipment
- data
- unit
- setting
- distributed controller
- 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.)
- Granted
Links
Landscapes
- Small-Scale Networks (AREA)
- Selective Calling Equipment (AREA)
- Telephonic Communication Services (AREA)
- Alarm Systems (AREA)
Abstract
Description
【0001】[0001]
【発明の属する技術分野】本発明は、ビル管理システム
に関するものである。[0001] The present invention relates to a building management system.
【0002】[0002]
【従来の技術】従来ビル管理システムとしては、特開昭
58−108893号公報、特開平3−276395号
公報、特開平6−78361号公報、特開平6−284
470号等に記載されたものがある。また図7に示すよ
うな構成のビル管理システムも提供されている。2. Description of the Related Art Conventionally, a building management system is disclosed in Japanese Patent Application Laid-Open Nos. 58-10893, 3-276395, 6-78361, and 6-284.
No. 470 and the like. A building management system having a configuration as shown in FIG. 7 is also provided.
【0003】図7に示すビル管理システムは、例えば1
0BASE(10BASE−T,10BASE−5,1
0BASE−2)を使用し、プロトコルとしてはTCP
/IP等の適宜なプロトコルを用いてLANを構築して
いるネットワークNTの情報線にワークステーション等
を用いたシステム管理用コンピュータ11 …を複数接続
するとともに、自立分散コントローラ15…を複数接続
し、自立分散コントローラ15…には制御信号線31 …
を介して端末器411…,421…、4n1 …を接続し、端
末器411…,421…、4n1 …には照明設備、防災設
備、動力空調設備、或いは防犯設備、電力設備等の監視
及び制御対象の設備機器40を接続しており、自立分散
コントローラ15…は端末器411…,421…、4n1 …
を通じて各設備機器40の監視制御及び設定を行うよう
になっている。[0003] The building management system shown in FIG.
0BASE (10BASE-T, 10BASE-5, 1
0BASE-2) and the protocol is TCP
/ IP or the like as appropriate information lines of the network NT which have built LAN to the system management computer 1 1 ... using the work station using a protocol as well as multi-connection, autonomous distributed controller 15 ... a plurality connection , The autonomous decentralized controllers 15... Have control signal lines 3 1 .
Terminal unit 4 11 ... via, 4 21 ..., 4n 1 ... connect the terminal device 4 11 ..., 4 21 ..., 4n 1 ... lighting equipment, a disaster prevention facility, power conditioning equipment, or security equipment, power connects the monitor and control target equipment 40 of facilities, autonomous distributed controller 15 ... are terminal devices 4 11 ..., 4 21 ..., 4n 1 ...
The monitoring control and the setting of each equipment 40 are performed through.
【0004】自立分散コントローラ15はハブボード1
0を内蔵し、このハブボード10に同軸コネクタにより
ネットワークNTの情報線が接続され、ネットワークN
Tに対して、ハブボード10とLANインターフェース
(図示せず)とバスインターフェース部(図示せず)と
を介して自立分散コントローラ15の中枢となるCPU
部(図示せず)が接続され、ネットワークNTを介して
自立分散コントローラ15同士でのデータ授受や、シス
テム管理コンピュータ11 …との間でのデータ授受が行
えるようなっている。The autonomous distributed controller 15 is a hub board 1
0, and an information line of a network NT is connected to the hub board 10 by a coaxial connector.
For T, a CPU serving as the center of the self-contained distributed controller 15 via a hub board 10, a LAN interface (not shown), and a bus interface unit (not shown)
Part (not shown) is connected, is made so that the data exchange and in the autonomous distributed controller 15 to each other via a network NT, perform the data transfer between the system control computer 1 1 ....
【0005】自立分散コントローラ15に設けたモジュ
ラジャック16は情報線(図示せず)を介してハブボー
ド10に接続され、ハブボード10とモジュラジャック
16とを通じて端末装置、例えば携帯パーソナルコンピ
ュータ(以下携帯パソコンと略す)20をネットワーク
NTの情報線に接続できるようになっている。ハブボー
ド10からは複数の情報線18を導出してあって、情報
線18…の末端部を後述するリモートステーション5に
備えてあるモジュラジャック8や端末器411…に付設し
てあるモジュラジャック19に接続してあり、これらの
モジュラジャック8、19に携帯パソコン20を接続す
ることにより、携帯パソコン20をネットワークNTの
情報線に接続できるようになっている。A modular jack 16 provided on the self-contained distributed controller 15 is connected to the hub board 10 via an information line (not shown), and a terminal device such as a portable personal computer (hereinafter referred to as a portable personal computer) is connected through the hub board 10 and the modular jack 16. (Abbreviated) 20 can be connected to the information line of the network NT. A plurality of information lines 18 are led out from the hub board 10, and the ends of the information lines 18 are connected to a modular jack 8 provided in a remote station 5 to be described later or a modular jack 19 attached to a terminal 4 11 . By connecting the portable personal computer 20 to these modular jacks 8 and 19, the portable personal computer 20 can be connected to the information line of the network NT.
【0006】また自立分散コントローラ15…から導出
される情報線18にはPDS41が接続され、更にこの
PDS41により分岐された情報線42は床下Xに配線
され、その末端部のモジュラジャック43により携帯パ
ソコン20をネットワークNTに接続することもできる
ようになっている。自立分散コントローラ15…はネッ
トワークNTを通じてシステム管理コンピュータ11 …
や他の自立分散コントローラとのデータ授受を行うこと
ができる他に、インターフェース部(図示せず)を通じ
て時分割多重伝送信号により端末器4との間でデータの
授受を行って接続される各ビル管理設備40の監視、制
御や設定ができるようになっている。A PDS 41 is connected to the information line 18 derived from the self-sustained decentralized controller 15, and an information line 42 branched by the PDS 41 is wired under the floor X. 20 can be connected to the network NT. Autonomous distributed controller 15 ... system control computer 1 1 via the network NT ...
In addition to transmitting and receiving data to and from other self-contained distributed controllers, each building connected by transmitting and receiving data to and from the terminal unit 4 through a time division multiplex transmission signal through an interface unit (not shown). The management equipment 40 can be monitored, controlled, and set.
【0007】[0007]
【発明が解決しようとする課題】ところで、図7のシス
テムでは、監視対象及び制御対象となる設備機器40と
端末器411…,421…、4n1 …とは配管、配設された
信号線により信号授受を行うようになっている。そのた
め当初のシステム設計では、監視対象となる設備機器4
0が必ずしも適切なものでは無く、更に詳しい箇所や追
加で監視したい対象が出てくる場合が多くある。ところ
が従来例では配管、配線された信号線で設備機器40と
端末器4 11…,421…、4n1 …とを接続する構成であ
るため、簡単に追加、変更という訳には行かず、また追
加したい監視対象は永続的で無く一定期間必要であった
りする場合もあるので、対処できないという状態であっ
た。The system shown in FIG.
System, the equipment 40 to be monitored and controlled
Terminal 411…, 4twenty one… 4n1… And the piping and arrangement
Signals are transmitted and received through signal lines. That
In the initial system design, the equipment 4
0 is not necessarily an appropriate one.
In addition, there are many cases where an object to be monitored appears. Place
However, in the conventional example, the piping and the wired signal lines are connected to the equipment 40.
Terminal 4 11…, 4twenty one… 4n1...
Therefore, it is not easy to add or change
The target to be added was not permanent and needed for a certain period of time
May not be able to cope with the situation.
Was.
【0008】本発明は、上記の点に鑑みて為されたもの
で、その目的とするところは監視対象の設備機器の追加
や変更があっても容易に対処することができるビル監視
システムを提供するにある。The present invention has been made in view of the above points, and has as its object to provide a building monitoring system capable of easily coping with the addition or change of equipment to be monitored. To be.
【0009】[0009]
【課題を解決するための手段】上記目的を達成するため
に、請求項1の発明では、LANによりシステム管理用
コンピュータと自立分散コントローラを接続し、自立分
散コントローラには設備機器を監視制御する端末器が接
続され、自立分散コントローラにより各端末器を通じて
設備機器を監視制御するとともに、システム管理用コン
ピュータと自立分散コントローラとの間でLANを通じ
て設備機器の監視情報や制御情報を授受が行われるビル
管理システムにおいて、可搬型で、設備機器に付設され
る各種のセンサで検出して得られた設備機器の状態を示
す検出データを含むデータを無線で送信する手段を備え
た子器と、LAN若しくは自立分散コントローラに接続
され、該子器から無線信号で送信されるデータを受信す
る無線手段とを備えるとともに、子器又は無線手段の何
れか一方に、監視対象とする設備機器の種別を設定する
設備種別設定手段を設け、無線手段は少なくとも子器か
ら受信した検出データ及び設備別設定手段の設定データ
をシステム管理用コンピュータに対して自立分散コント
ローラ若しくはLANを通じて伝送することを特徴とす
るもので、監視対象となる設備機器の追加、変更があっ
ても、監視対象となる設備機器にセンサを付設するとと
もに子器をセンサと接続し、設備種別設定手段の設定を
監視対象となる設備機器に対応させるだけよく、設備機
器とシステム側との間で配線、配管の変更を必要としな
いため、容易に且つ自在に対処でき、更に特定の期間の
みの一時的監視等も簡単に実現することができる。To achieve the above object, according to the first aspect of the present invention, a system management computer and an independent distributed controller are connected by a LAN, and the independent distributed controller has a terminal for monitoring and controlling equipment. A building management system in which equipment is connected and the equipment is monitored and controlled by each terminal using an autonomous distributed controller, and monitoring and control information of the equipment is exchanged between the system management computer and the autonomous distributed controller via a LAN. In the system, a portable unit provided with means for wirelessly transmitting data including detection data indicating the state of the equipment obtained by detection by various sensors attached to the equipment, and a LAN or a self-contained system Wireless means connected to the distributed controller for receiving data transmitted by wireless signals from the slave unit. In addition, either one of the slave unit and the wireless means is provided with equipment type setting means for setting the type of equipment to be monitored, and the wireless means is configured to at least set the detection data received from the slave unit and the equipment-specific setting means. Data is transmitted to the system management computer via a self-contained distributed controller or LAN. Even if the equipment to be monitored is added or changed, a sensor is attached to the equipment to be monitored. In addition, it is only necessary to connect the slave unit to the sensor and make the setting of the equipment type setting means correspond to the equipment to be monitored.Since there is no need to change the wiring and piping between the equipment and the system side, it is easy In addition, it is possible to easily cope with the situation, and it is also possible to easily realize, for example, temporary monitoring only for a specific period.
【0010】請求項2の発明では、請求項1の発明にお
いて、設備種別手段を子器に設けたことを特徴とするも
ので、監視対象の設備機器側に配設する子器側で監視対
象の設備機器を設定することができるため、固定的に配
置される無線手段側の設定変更を必要とせず、そのため
追加、変更等の作業が容易となる。請求項3の発明で
は、請求項1の発明において、設備種別手段に加え、設
備機器に付設するセンサが検出する検出要素の種別を設
定する値種別設定手段を子器又は無線手段に設け、無線
手段は少なくとも子器から受信した検出データ及び設備
別設定手段の設定データに加え値種別設定手段の設定デ
ータを自立分散コントローラ若しくはLANを通じて伝
送することを特徴とするもので、各種センサ、各種設備
機器に対応することが容易に行える。[0010] According to a second aspect of the present invention, in the first aspect of the present invention, the equipment classification means is provided in the slave, and the equipment to be monitored is arranged in the equipment to be monitored. Since it is not necessary to change the settings of the fixedly arranged wireless means, it is easy to add or change the equipment. According to a third aspect of the present invention, in the invention of the first aspect, in addition to the equipment classification means, a value type setting means for setting the type of a detection element detected by a sensor attached to the equipment is provided in the slave unit or the wireless means. The means transmits at least the detection data received from the slave unit and the setting data of the setting means for each equipment, as well as the setting data of the value type setting means through an independent distributed controller or a LAN. Can be easily handled.
【0011】[0011]
【発明の実施の形態】以下、本発明の実施例を図面を参
照して説明する。図1は本発明の一実施形態のシステム
の一部の構成を示しており、基本的には図7で示したシ
ステムと同じであるが、リモートステーション5におい
て、設備機器40aと信号線で接続する端末器4以外
に、無線手段たる無線端末器50を設けるとともに、こ
の無線端末器50に対応して、設備機器40bに付設し
た温度、湿度、振動等のセンサ52の検出データたる設
備機器40bの監視データや運転データを電波を信号媒
体とする無線信号で送信する子器53とを備えている点
で相違する。Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 shows a partial configuration of a system according to an embodiment of the present invention, which is basically the same as the system shown in FIG. 7, except that the remote station 5 is connected to the equipment 40a by a signal line. In addition to the terminal 4, a wireless terminal 50 as a wireless means is provided, and the equipment 40 b corresponding to the wireless terminal 50, which is detection data of a sensor 52 such as temperature, humidity, vibration, etc. attached to the equipment 40 b. And a slave device 53 for transmitting the monitoring data and the operation data of the wireless communication device as a wireless signal using a radio wave as a signal medium.
【0012】無線端末器50は図2に示すように制御信
号線3を通じて自立分散コントローラ15との間で時分
割多重伝送信号により、データの授受を行うための信号
送受信部54と、無線端末器50の固有のアドレスを設
定するためのアドレス設定部55と、子器53との間で
電波無線信号の送受信を行うための無線送受信部56
と、変復調部57と、無線端末器50の信号処理を行う
ための信号処理部58とを備えている。As shown in FIG. 2, the wireless terminal 50 includes a signal transmitting / receiving section 54 for transmitting and receiving data to and from the autonomous distributed controller 15 through the control signal line 3 by a time division multiplex transmission signal, and a wireless terminal 50. An address setting unit 55 for setting a unique address of the wireless communication unit 50 and a wireless transmitting and receiving unit 56 for transmitting and receiving a radio wave signal to and from the slave unit 53.
And a modulation / demodulation unit 57 and a signal processing unit 58 for performing signal processing of the wireless terminal 50.
【0013】一方子器53は持ち運びができるように小
型に形成されたもので、図3に示すように固有のアドレ
スを設定するアドレス設定部61と、無線端末器50と
の間で無線信号の授受を行うための無線送受信部62
と、変復調部63と、子器53の信号処理を行う信号処
理部64と、設備機器4bに設置したセンサ52からの
信号を増幅する増幅器67とを備えるとともに、設備種
別設定部65及び値種別設定部66を備えている。設備
種別設定部65は監視対象の設備機器40bの種別を設
定するものであり、値種別設定部65は設備機器40b
に設置するセンサ52が検出する検出要素を設定するも
のである。On the other hand, the handset 53 is formed in a small size so as to be portable, and an address setting section 61 for setting a unique address as shown in FIG. Wireless transmission / reception unit 62 for transmitting and receiving
And a modulation / demodulation unit 63, a signal processing unit 64 for performing signal processing of the slave unit 53, and an amplifier 67 for amplifying a signal from the sensor 52 installed in the equipment 4b. A setting unit 66 is provided. The equipment type setting unit 65 sets the type of the equipment 40b to be monitored.
This is for setting a detection element to be detected by the sensor 52 installed in the device.
【0014】具体的には図4に示すように8ビットのデ
ュップスイッチDSWを用いてその上位3ビットで設備
種別設定部65を、下位5ビットで値種別設定部66を
構成すもので、例えば設備種別設定部65において10
進数表現で「01」を設定すれば電気設備機器を、「0
2」を設定すれば空調設備機器を、「03」を設定すれ
ば防災設備機器を、「04」を設定すれば防犯設備機器
を、「05」を設定すれば衛生設備機器を、「06」を
設定すれば搬送設備機器を、「07」を設定すれば他の
設備機器を示すようになっている。また値種別設定部6
6において10進数表現で「01」を設定すれば電流
を、「02」を設定すれば電圧を、「03」を設定すれ
ば周波数、「04」を設定すれば温度を、「05」を設
定すれば湿度を、「06」を設定すれば振動を、「0
7」を設定すれば周波数を、「08」を設定すれば圧力
を、「09」を設定すれば「流量」を、「10」すれば
警報を、「11」を設定すれば電力を、「12」を設定
すればその他を示すことになる。More specifically, as shown in FIG. 4, an 8-bit DIP switch DSW is used to configure a facility type setting section 65 with upper 3 bits and a value type setting section 66 with lower 5 bits. For example, in the equipment type setting unit 65, 10
If "01" is set in the radix notation, the electrical equipment will be set to "0".
If "2" is set, the air-conditioning equipment is set, "03" is set for the disaster prevention equipment, "04" is set for the security equipment, "05" is set for the sanitation equipment, and "06" is set. Is set to indicate the transport equipment, and "07" is set to indicate other equipment. Value type setting unit 6
In 6, the current is set if "01" is set in decimal notation, the voltage is set if "02" is set, the frequency is set if "03" is set, the temperature is set if "04" is set, and "05" is set. If set, the humidity is set, if “06” is set, the vibration is set,
Setting “7” sets the frequency, setting “08” sets the pressure, setting “09” sets the “flow rate”, setting “10” sets the alarm, setting “11” sets the power, Setting "12" indicates other.
【0015】而して、常時無線端末器50は対応する各
子器53に設定されたアドレスを順次に且つサイクリッ
クに呼び出す呼び出しデータを無線信号により送信す
る。一方子器53側では無線送受信部61を通じて無線
端末器50から送信される無線信号を受信し、その無線
信号で送られてくる呼び出しデータを変復調部63で復
調して信号処理部64に取込み監視する。そして、その
呼び出しデータに含まれる呼び出しアドレスがアドレス
設定部61で設定した自己のアドレスと一致すると、信
号処理部64はセンサ52の検出出力を増幅器57を通
じて取込みその検出データDTと設備種別設定部65及
び値種別設定部66で設定された内容のデータDa,D
bと自己のアドレスデータADとを変復調部63を介し
て無線送受信部61に送り、電波による無線信号として
送信する。図5はこの時子器53から送信されるデータ
のフォーマットを示す。Thus, the radio terminal 50 always transmits, by radio signal, call data for sequentially and cyclically calling the addresses set in the corresponding sub-units 53. On the other hand, the slave unit 53 receives a wireless signal transmitted from the wireless terminal device 50 through the wireless transmission / reception unit 61, demodulates the call data transmitted by the wireless signal by the modulation / demodulation unit 63, and takes in the signal processing unit 64 for monitoring. I do. Then, when the call address included in the call data matches the own address set by the address setting unit 61, the signal processing unit 64 fetches the detection output of the sensor 52 through the amplifier 57 and the detection data DT and the equipment type setting unit 65. And data Da, D of the contents set by the value type setting unit 66.
b and its own address data AD are transmitted to the wireless transmission / reception unit 61 via the modulation / demodulation unit 63, and transmitted as radio signals by radio waves. FIG. 5 shows a format of data transmitted from the slave unit 53 at this time.
【0016】無線端末器50では、子器53からの無線
信号を受信すると、変復調部57で無線信号に含まれる
データを復調し、その復調したデータを取込む。そして
取り込んだデータは、自立分散コントローラ15に対し
て信号送受信部54及び制御信号線3を介して時分割多
重伝送信号により送られることになり、自立分散コント
ローラ15からは更にネットワークNTの情報線を通じ
て上位のシステム管理用コンピュータ1に送られる。シ
ステム管理用コンピュータ1では送られてきたデータに
基づいてディスプレイの専用表示メニューで各設備機器
40bの状態を表示する。When the wireless terminal 50 receives the wireless signal from the slave unit 53, the modem unit 57 demodulates the data contained in the wireless signal and takes in the demodulated data. The fetched data is sent to the autonomous distributed controller 15 by a time division multiplex transmission signal via the signal transmission / reception unit 54 and the control signal line 3, and further transmitted from the autonomous distributed controller 15 through the information line of the network NT. It is sent to the host system management computer 1. The system management computer 1 displays the status of each equipment 40b on a dedicated display menu of the display based on the transmitted data.
【0017】ここで、無線端末器50から自立分散コン
トローラ15へ送られる時分割多重伝送信号のデータフ
ォーマットは図6に示すように無線端末器50のアドレ
スデータ及び対象となる子器53のアドレスデータを含
むアドレスデータAD、当該子器53に対応する監視対
象の設備機器4bの種別データDa及びセンサ52の検
出出力の値種別のデータDb、センサ52の検出データ
からなるデータDTから構成されており、システム管理
用コンピュータ1ではこれらデータにより監視対象の設
備機器4bがどのような機器か、またセンサ52からの
検出データが何を示すものかが判るとともに、無線端末
器50のアドレスデータ及び子器5のアドドレスデータ
から何れの子器53を特定できることになる。このよう
な結果から監視対象の設備機器4bの状態を個別にディ
スプレイで表示することができるのである。Here, the data format of the time division multiplex transmission signal sent from the wireless terminal 50 to the autonomous distributed controller 15 is, as shown in FIG. 6, the address data of the wireless terminal 50 and the address data of the target slave 53. , Data type Db of the equipment 4b to be monitored corresponding to the slave unit 53, data Db of the value type of the detection output value of the sensor 52, and data DT including detection data of the sensor 52. The system management computer 1 can determine from these data what kind of equipment 4b is to be monitored and what the detection data from the sensor 52 indicates, as well as the address data of the wireless terminal 50 and the slave unit. 5 can be specified from the address data No. 5. From such a result, the status of the equipment 4b to be monitored can be individually displayed on the display.
【0018】以上のように構成された本実施形態では、
監視対象の設備機器40bの変更や追加があっても、配
線、配管の変更をする必要がなく、しかも無線信号の到
達範囲であれば自由に監視場所が設定できるため、自在
に対処できる。尚無線端末器50はリモートステーショ
ン5に、従来の端末器4と併設される形で設けられてあ
るが、端末器としてでなく、それ自体でリーモトステー
ションを構成するようにしても良い。In this embodiment configured as described above,
Even if there is a change or addition of the equipment 40b to be monitored, there is no need to change the wiring and piping, and the monitoring location can be set freely as long as it is within the reach of the radio signal. Although the wireless terminal 50 is provided in the remote station 5 in such a manner as to be provided alongside the conventional terminal 4, the remote terminal may be constituted by itself, not as a terminal.
【0019】また上記実施形態では、複数の子器53に
対して1台の無線端末器50を対応させる形であった
が、1対1の関係を持たせるような場合や、対応する子
器53のセンサ52の監視対象の設備機器40bが同一
種で、且つセンサ52の種別が同じである場合には、図
2で示すように設備種別設定部59及び値種別設定部6
0を無線端末器50側に設け、自立分散コントローラ1
5にデータを送る際に設備種別設定部59及び値種別設
定部60の設定データを送るようにしても良い。In the above-described embodiment, one wireless terminal 50 is associated with a plurality of slaves 53. However, there is a case where a one-to-one relationship is established, If the equipment devices 40b to be monitored by the 53 sensors 52 are of the same type and the type of the sensor 52 is the same, the equipment type setting unit 59 and the value type setting unit 6 as shown in FIG.
0 is provided on the wireless terminal 50 side, and the autonomous distributed controller 1
When the data is transmitted to 5, the setting data of the equipment type setting unit 59 and the value type setting unit 60 may be transmitted.
【0020】また1対1の構成であれば子器53を順次
呼び出し必要がないから、子器53と無線端末器50と
の間で双方向通信を行う必要がなくなり、そのため子器
53側には無線信号を送信する送信部を、無線端末器5
0に無線信号を受信する受信部を無線送受信部の代わり
に設け、子器53から一定周期でデータを伝送するよう
にしても良い。In the case of a one-to-one configuration, there is no need to sequentially call the slaves 53, so that there is no need to perform bidirectional communication between the slave 53 and the wireless terminal 50. Is a transmitter for transmitting a wireless signal, and the wireless terminal 5
A receiving unit for receiving a wireless signal may be provided in place of the wireless transmitting / receiving unit at 0, and data may be transmitted from the slave unit 53 at a constant period.
【0021】更にまた上記実施形態では無線端末器50
の受信データは自立分散コントローラ15を介してシス
テム管理用コンピュータ1へ伝送するようになっている
が、LANの情報線18を用いて無線端末器50から直
接的にシステム管理用コンピュータ1へ伝送するように
しても良い。Further, in the above embodiment, the wireless terminal 50
Is transmitted to the system management computer 1 via the autonomous distributed controller 15, but is transmitted directly from the wireless terminal 50 to the system management computer 1 using the LAN information line 18. You may do it.
【0022】[0022]
【発明の効果】請求項1の発明は、LANによりシステ
ム管理用コンピュータと自立分散コントローラを接続
し、自立分散コントローラには設備機器を監視制御する
端末器が接続され、自立分散コントローラにより各端末
器を通じて設備機器を監視制御するとともに、システム
管理用コンピュータと自立分散コントローラとの間でL
ANを通じて設備機器の監視情報や制御情報を授受が行
われるビル管理システムにおいて、可搬型で、設備機器
に付設される各種のセンサで検出して得られた設備機器
の状態を示す検出データを含むデータを無線で送信する
手段を備えた子器と、LAN若しくは自立分散コントロ
ーラに接続され、該子器から無線信号で送信されるデー
タを受信する無線手段とを備えるとともに、子器又は無
線手段の何れか一方に、監視対象とする設備機器の種別
を設定する設備種別設定手段を設け、無線手段は少なく
とも子器から受信した検出データ及び設備別設定手段の
設定データをシステム管理用コンピュータに対して自立
分散コントローラ若しくはLANを通じて伝送するの
で、監視対象となる設備機器の追加、変更があっても、
監視対象となる設備機器にセンサを付設するとともに子
器をセンサと接続し、設備種別設定手段の設定を監視対
象となる設備機器に対応させるだけよく、設備機器とシ
ステム側との間で配線、配管の変更を必要としないた
め、容易に且つ自在に対処でき、更に特定の期間のみの
一時的監視等も簡単に実現することができるという効果
がある。According to the first aspect of the present invention, a system management computer and an independent distributed controller are connected by a LAN, and a terminal for monitoring and controlling equipment is connected to the independent distributed controller. Monitoring and controlling the equipment through the system management computer, and the L between the system management computer and the autonomous distributed controller.
In a building management system in which monitoring and control information of equipment is exchanged through an AN, the building management system is portable and includes detection data indicating the state of the equipment obtained by detecting with various sensors attached to the equipment. A slave unit provided with a means for transmitting data wirelessly, and a wireless unit connected to a LAN or a self-contained distributed controller and receiving data transmitted by a wireless signal from the slave unit; Either one is provided with equipment type setting means for setting the type of equipment to be monitored, and the wireless means transmits at least the detection data received from the slave unit and the setting data of the equipment-specific setting means to the system management computer. Since the data is transmitted via the autonomous distributed controller or LAN, even if the equipment to be monitored is added or changed,
It is only necessary to attach a sensor to the equipment to be monitored and connect the slave unit to the sensor, and to make the setting of the equipment type setting means correspond to the equipment to be monitored, wiring between the equipment and the system side, Since there is no need to change the piping, it is possible to easily and freely deal with the problem, and it is also possible to easily realize, for example, temporary monitoring only during a specific period.
【0023】請求項2の発明は、請求項1の発明におい
て、設備種別手段を子器に設けたので、監視対象の設備
機器側に配設する子器側で監視対象の設備機器を設定す
ることができるため、固定的に配置される無線手段側の
設定変更を必要とせず、そのため追加、変更等の作業が
容易となるという効果がある。請求項3の発明は、請求
項1の発明において、設備種別手段に加え、設備機器に
付設するセンサが検出する検出要素の種別を設定する値
種別設定手段を子器又は無線手段に設け、無線手段は少
なくとも子器から受信した検出データ及び設備別設定手
段の設定データに加え値種別設定手段の設定データを自
立分散コントローラ若しくはLANを通じて伝送するの
で、各種センサ、各種設備機器に対応することが容易に
行えるという効果がある。According to a second aspect of the present invention, in the first aspect of the present invention, since the equipment classification means is provided in the slave, the equipment to be monitored is set on the slave that is disposed on the equipment to be monitored. Therefore, there is no need to change the setting of the fixedly arranged wireless means, and thus there is an effect that the work of addition, change, etc., is facilitated. According to a third aspect of the present invention, in the invention of the first aspect, in addition to the equipment classification means, a value type setting means for setting the type of a detection element detected by a sensor attached to the equipment is provided in the slave unit or the wireless means, Since the means transmits at least the detection data received from the slave unit and the setting data of the setting means for each equipment, as well as the setting data of the value type setting means through the self-contained distributed controller or the LAN, it is easy to correspond to various sensors and various equipment. There is an effect that can be performed.
【図1】本発明の一実施形態の一部省略せるシステム構
成図である。FIG. 1 is a system configuration diagram in which an embodiment of the present invention can be partially omitted.
【図2】同上に用いる無線端末器のブロック図である。FIG. 2 is a block diagram of a wireless terminal used in the embodiment.
【図3】同上に用いる子器のブロック図である。FIG. 3 is a block diagram of a slave unit used in the embodiment.
【図4】同上に用いる設備種別設定部及び値種別設定部
を構成するディップスイッチの正面図である。FIG. 4 is a front view of a dip switch constituting a facility type setting unit and a value type setting unit used in the above.
【図5】同上の子器から無線端末器へ送られるデータの
フォーマットを示す。FIG. 5 shows a format of data sent from the slave to the wireless terminal.
【図6】同上の無線端末器から自立分散コントローラへ
送られるデータのフォーマットを示す。FIG. 6 shows a format of data sent from the wireless terminal to the autonomous distributed controller.
【図7】従来例のシステム構成図である。FIG. 7 is a system configuration diagram of a conventional example.
1 システム管理用コンピュータ 3 制御信号線 4 端末器 5 リモートステーション 8 モジュラジャック 15 自立分散コントローラ 18 情報線 40a,40b 設備機器 50 無線端末器 52 センサ 53 子器 DESCRIPTION OF SYMBOLS 1 System management computer 3 Control signal line 4 Terminal 5 Remote station 8 Modular jack 15 Independent distributed controller 18 Information line 40a, 40b Equipment 50 Wireless terminal 52 Sensor 53 Remote unit
───────────────────────────────────────────────────── フロントページの続き (51)Int.Cl.6 識別記号 庁内整理番号 FI 技術表示箇所 H04L 12/46 H04M 11/00 301 12/28 H04L 11/00 310C H04M 11/00 301 ──────────────────────────────────────────────────続 き Continued on the front page (51) Int.Cl. 6 Identification number Agency reference number FI Technical display location H04L 12/46 H04M 11/00 301 12/28 H04L 11/00 310C H04M 11/00 301
Claims (3)
と自立分散コントローラを接続し、自立分散コントロー
ラには設備機器を監視制御する端末器が接続され、自立
分散コントローラにより各端末器を通じて設備機器を監
視制御するとともに、システム管理用コンピュータと自
立分散コントローラとの間でLANを通じて設備機器の
監視情報や制御情報を授受が行われるビル管理システム
において、可搬型で、設備機器に付設される各種のセン
サで検出して得られた設備機器の状態を示す検出データ
を含むデータを無線で送信する手段を備えた子器と、L
AN若しくは自立分散コントローラに接続され、該子器
から無線信号で送信されるデータを受信する無線手段と
を備えるとともに、子器又は無線手段の何れか一方に、
監視対象とする設備機器の種別を設定する設備種別設定
手段を設け、無線手段は少なくとも子器から受信した検
出データ及び設備別設定手段の設定データをシステム管
理用コンピュータに対して自立分散コントローラ若しく
はLANを通じて伝送することを特徴とするビル管理シ
ステム。1. A system management computer and a self-contained distributed controller are connected by a LAN, a terminal for monitoring and controlling equipment is connected to the self-contained distributed controller, and the self-contained distributed controller monitors and controls the equipment via each terminal. At the same time, in a building management system in which monitoring information and control information of equipment are exchanged between a system management computer and a self-contained distributed controller via a LAN, a portable type is detected by various sensors attached to the equipment. A slave unit having a means for wirelessly transmitting data including detection data indicating the state of the equipment obtained by
A wireless unit connected to the AN or the independent distributed controller and receiving data transmitted by a wireless signal from the slave unit, and one of the slave unit and the wireless unit,
The equipment type setting means for setting the type of equipment to be monitored is provided, and the wireless means transmits at least the detection data received from the slave unit and the setting data of the equipment-specific setting means to the system management computer by an autonomous distributed controller or a LAN. A building management system characterized by being transmitted through
する請求項1記載のビル管理システム。2. The building management system according to claim 1, wherein the equipment classification means is provided in the slave unit.
センサが検出する検出要素の種別を設定する値種別設定
手段を子器又は無線手段に設け、無線手段は少なくとも
子器から受信した検出データ及び設備別設定手段の設定
データに加え値種別設定手段の設定データを自立分散コ
ントローラ若しくはLANを通じて伝送することを特徴
とする請求項1記載のビル管理システム。3. A slave unit or a wireless unit further comprising a value type setting unit for setting the type of a detection element detected by a sensor attached to the equipment, in addition to the equipment type unit, wherein the wireless unit is configured to detect at least the detection received from the slave unit. 2. The building management system according to claim 1, wherein the setting data of the value type setting means in addition to the data and the setting data of the facility-specific setting means are transmitted through an independent distributed controller or a LAN.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP22567996A JP3227390B2 (en) | 1996-08-27 | 1996-08-27 | Building management system |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP22567996A JP3227390B2 (en) | 1996-08-27 | 1996-08-27 | Building management system |
Publications (2)
Publication Number | Publication Date |
---|---|
JPH1070774A true JPH1070774A (en) | 1998-03-10 |
JP3227390B2 JP3227390B2 (en) | 2001-11-12 |
Family
ID=16833094
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP22567996A Expired - Fee Related JP3227390B2 (en) | 1996-08-27 | 1996-08-27 | Building management system |
Country Status (1)
Country | Link |
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JP (1) | JP3227390B2 (en) |
Cited By (10)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2003500888A (en) * | 1999-05-13 | 2003-01-07 | ハネウェル・インコーポレーテッド | Wireless system with transmit power control |
US8856323B2 (en) | 2011-02-10 | 2014-10-07 | Trilliant Holdings, Inc. | Device and method for facilitating secure communications over a cellular network |
US8891338B2 (en) | 2009-01-29 | 2014-11-18 | Itron, Inc. | Measuring the accuracy of an endpoint clock from a remote device |
US8970394B2 (en) | 2011-01-25 | 2015-03-03 | Trilliant Holdings Inc. | Aggregated real-time power outages/restoration reporting (RTPOR) in a secure mesh network |
US9001787B1 (en) | 2011-09-20 | 2015-04-07 | Trilliant Networks Inc. | System and method for implementing handover of a hybrid communications module |
US9041349B2 (en) | 2011-03-08 | 2015-05-26 | Trilliant Networks, Inc. | System and method for managing load distribution across a power grid |
US9084120B2 (en) | 2010-08-27 | 2015-07-14 | Trilliant Networks Inc. | System and method for interference free operation of co-located transceivers |
US9189822B2 (en) | 2009-03-11 | 2015-11-17 | Trilliant Networks, Inc. | Process, device and system for mapping transformers to meters and locating non-technical line losses |
US9282383B2 (en) | 2011-01-14 | 2016-03-08 | Trilliant Incorporated | Process, device and system for volt/VAR optimization |
US9621457B2 (en) | 2008-09-04 | 2017-04-11 | Trilliant Networks, Inc. | System and method for implementing mesh network communications using a mesh network protocol |
-
1996
- 1996-08-27 JP JP22567996A patent/JP3227390B2/en not_active Expired - Fee Related
Cited By (11)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2003500888A (en) * | 1999-05-13 | 2003-01-07 | ハネウェル・インコーポレーテッド | Wireless system with transmit power control |
JP4906192B2 (en) * | 1999-05-13 | 2012-03-28 | ハネウェル・インターナショナル・インコーポレーテッド | Wireless system with transmit power control |
US9621457B2 (en) | 2008-09-04 | 2017-04-11 | Trilliant Networks, Inc. | System and method for implementing mesh network communications using a mesh network protocol |
US8891338B2 (en) | 2009-01-29 | 2014-11-18 | Itron, Inc. | Measuring the accuracy of an endpoint clock from a remote device |
US9189822B2 (en) | 2009-03-11 | 2015-11-17 | Trilliant Networks, Inc. | Process, device and system for mapping transformers to meters and locating non-technical line losses |
US9084120B2 (en) | 2010-08-27 | 2015-07-14 | Trilliant Networks Inc. | System and method for interference free operation of co-located transceivers |
US9282383B2 (en) | 2011-01-14 | 2016-03-08 | Trilliant Incorporated | Process, device and system for volt/VAR optimization |
US8970394B2 (en) | 2011-01-25 | 2015-03-03 | Trilliant Holdings Inc. | Aggregated real-time power outages/restoration reporting (RTPOR) in a secure mesh network |
US8856323B2 (en) | 2011-02-10 | 2014-10-07 | Trilliant Holdings, Inc. | Device and method for facilitating secure communications over a cellular network |
US9041349B2 (en) | 2011-03-08 | 2015-05-26 | Trilliant Networks, Inc. | System and method for managing load distribution across a power grid |
US9001787B1 (en) | 2011-09-20 | 2015-04-07 | Trilliant Networks Inc. | System and method for implementing handover of a hybrid communications module |
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