JPS58131891A - Reception controlling method of remote control device - Google Patents

Reception controlling method of remote control device

Info

Publication number
JPS58131891A
JPS58131891A JP1510882A JP1510882A JPS58131891A JP S58131891 A JPS58131891 A JP S58131891A JP 1510882 A JP1510882 A JP 1510882A JP 1510882 A JP1510882 A JP 1510882A JP S58131891 A JPS58131891 A JP S58131891A
Authority
JP
Japan
Prior art keywords
signal
control
memory
transmitting device
transmission
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
Application number
JP1510882A
Other languages
Japanese (ja)
Other versions
JPH0143518B2 (en
Inventor
Shinji Naka
中 信二
Takashi Deguchi
隆 出口
Yasuyuki Ejima
江島 康之
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Panasonic Holdings Corp
Original Assignee
Matsushita Electric Industrial Co Ltd
Priority date (The priority date 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 date listed.)
Filing date
Publication date
Application filed by Matsushita Electric Industrial Co Ltd filed Critical Matsushita Electric Industrial Co Ltd
Priority to JP1510882A priority Critical patent/JPS58131891A/en
Publication of JPS58131891A publication Critical patent/JPS58131891A/en
Publication of JPH0143518B2 publication Critical patent/JPH0143518B2/ja
Granted legal-status Critical Current

Links

Classifications

    • GPHYSICS
    • G08SIGNALLING
    • G08CTRANSMISSION SYSTEMS FOR MEASURED VALUES, CONTROL OR SIMILAR SIGNALS
    • G08C25/00Arrangements for preventing or correcting errors; Monitoring arrangements
    • G08C25/04Arrangements for preventing or correcting errors; Monitoring arrangements by recording transmitted signals

Landscapes

  • Physics & Mathematics (AREA)
  • General Physics & Mathematics (AREA)
  • Selective Calling Equipment (AREA)

Abstract

PURPOSE:To eliminate influence of a noise, by storing a control signal in a memory temporarily, and executing a subsequent control based on information which has been read out from the memory. CONSTITUTION:When a signal is inputted, a microcomputer 16 executes interruption processing to decode the signal. A result of decoding is stored in a memory. When the signal ends, the microcomputer 16 executes a work for deciding whether the signal is normal or not. As a result, a normal signal is classified and is stored in a controlling memory. A part which is abnormal due to influence of a noise is skipped. As for a part in which information is not updated due to influence of a noise is kept controlled by leaving the previous information as it is.

Description

【発明の詳細な説明】 本発明は遠隔した位置において被制御機器を運転制御す
る遠隔制御装置の受信1f1]御方法に関するものであ
る。
DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a method for controlling a remote control device for controlling the operation of a controlled device at a remote location.

従来、遠隔制御装置の送信装置において、被制御機の複
数の制御内容を遠隔曝作するために、それぞれの制御内
存に関して、複数の選抵スイッチが有り、使用者が適切
な各モードを選定操作した後に送信を開始するスイッチ
を操作、送信装置がこれを受けて、各制御内容を順次信
号に変えて、有線あるいは無線など各種伝播信号を用い
て送信するもの(以後プリセット式送信装置と称す。)
が開発されている。この為、送信時あるいは送信後にお
ける確認が送信装置に於て出来る便利さを提供できた。
Conventionally, in the transmitting device of a remote control device, in order to remotely activate multiple control contents of the controlled machine, there are multiple selection switches for each control, and the user selects and operates the appropriate mode. After that, a switch is operated to start transmission, and the transmitting device receives this, sequentially converts each control content into a signal, and transmits it using various propagation signals such as wired or wireless (hereinafter referred to as a preset type transmitting device). )
is being developed. Therefore, it is possible to provide the convenience of being able to perform confirmation at the transmitting device at the time of transmission or after transmission.

これは、たとえばルームクーラなどの空調機を遠隔制御
するものとして、光を用いたワイヤレス式の遠隔制御装
置の送信装置などにおいて見うけられる。しかし、従来
の受信制御装置は、いずれも単に受信4号を受けて被制
御機器の運転あるいはモードを遠隔制御するだけで、し
かも制御信号が伝播中にノイズなどにより受1苫不可能
となった場合は、−回の送信内容が全てキャンセルされ
、この場合は、被制御機の遠隔装作ができなかった。こ
のため、比較的、送受信の距離が長かったり、ノイズの
多い状況Fでは遠隔匍j御を実用的に行なうことが出来
なかった。従来これを行なう場合は、−回の送信内存を
少なくし、かつ受信側での受信制御ケそのつどする様に
して、送受信にノイズが入る確率を丁げるなどの方式を
取らなければならなかった。このことは、1史用考に対
して、複雑な送信操作全必要とし、不便さが伴うもので
あった。
This can be seen, for example, in transmitting devices of wireless remote control devices that use light to remotely control air conditioners such as room coolers. However, all conventional reception control devices simply receive the signal No. 4 and remotely control the operation or mode of the controlled device, and the control signal becomes unreceivable due to noise etc. during propagation. In this case, all the contents of the - times of transmission were canceled, and in this case, the controlled machine could not be remotely mounted. For this reason, in situations F where the transmission and reception distances are relatively long or where there is a lot of noise, remote crawling control cannot be practically performed. Conventionally, when doing this, it was necessary to take measures such as reducing the number of internal transmissions and controlling reception on the receiving side each time to reduce the probability of noise entering the transmission and reception. Ta. This necessitated a complicated transmission operation for one historical purpose, which was accompanied by inconvenience.

本発明は、上記従来の欠点を解消すべくなされたもので
、操作性の良いプリセット式送信装置を送信装置として
採用でき、かつその−回の送信内容のうち正常な信号に
従い、かつ異常な部分は、前回正常に受信した内容に従
って被“制御機器の運転制御を行なう機能を具備した遠
隔制御を行うことができ、しかも誤動作の防止を計るな
ど、実用性に富んだ遠隔受信制御方法を提供するのを目
的とする。
The present invention has been made in order to eliminate the above-mentioned drawbacks of the conventional technology, and it is possible to employ a preset type transmitter with good operability as a transmitter, and to transmit data according to a normal signal among the transmission contents of the previous transmission, and to transmit abnormal portions. provides a highly practical remote reception control method that can perform remote control with the function of controlling the operation of the controlled equipment according to the content that was successfully received last time, and also prevents malfunctions. The purpose is to

以下、本発明の一実施例について図面を参照して説明す
る。
An embodiment of the present invention will be described below with reference to the drawings.

尚、本発明の一実施例では、被制御機の運転あるいは停
止を一つの制御内容■とし、被制御機器BおよびCの制
御山谷ヲそれぞれ■あるいは■あるいは■の3つのモー
ドとし、それぞれ制御内容■および■としている。
In one embodiment of the present invention, one control content is the operation or stopping of the controlled equipment (■), and three control modes (■, ■, or ■) for the control peaks and valleys of the controlled devices B and C, respectively, and each control content is ■ and ■.

第1図は、本発明の一実施例におけるプリセット式送信
装置を図示したもので、1は送信装置本体、2は制御内
容■を決定する操作スイッチで、3および4ば、それぞ
れ制御内容■および◎を決定する操作スイッチ、5は送
信を開始するためのスイッチを示す。ここで、例えば、
制御内容■を運転にすべく前記操作スイッチ2を、制御
内容■をモード■にすべく前記操作スイッチ3を、制御
内容◎をモード■にすべく前記操作スイッチ4をそれぞ
れセットし、かかる後に、前記送信スイッチ6を操作す
る事により、制御内容■〜@が一回の送信信号として、
順次送信される。この送信信号をタイミングチャートで
示したものが第2図で、各送信データとして、一つの制
御内容を決定する信号を一定時間°rの間に順次送信さ
れており、制御内容■として運転データ6が、制御内容
■としてモード■−■なるデータ7が、同じく割餌1内
答@としてモードデータ■−■なるデータ8がそれぞれ
送信されている。ここで第1図に於ける、前記送信スイ
ッチ5は、前記操作スイッチ2を北ねでも良く、この場
合第2図における前記運転デ〜り6が一回目の送信にお
いて運転を、同じデータで二回目の送信にて停止を意味
する様にすることも容易である。尚、かかる送信を行な
う送信装置の構成および詳卸1な動作説明および送信信
は自体について、又、伝播方式については、本発明の要
旨ではないため、図示全省略し、説明を省略する。
FIG. 1 shows a preset type transmitting device according to an embodiment of the present invention, where 1 is the main body of the transmitting device, 2 is an operation switch for determining the control contents (■), and 3 and 4 are control contents (■) and 4 (b), respectively. ◎ indicates the operation switch for determining the operation switch, and 5 indicates the switch for starting transmission. Here, for example,
The operating switch 2 is set to set the control content ■ to operation, the operating switch 3 is set to set the control content ■ to mode ■, and the operating switch 4 is set to set the control content ◎ to mode ■, and after doing so, By operating the transmission switch 6, the control contents ■~@ are transmitted as a single transmission signal,
Sent sequentially. The timing chart of this transmission signal is shown in Fig. 2. As each transmission data, a signal that determines one control content is sequentially transmitted during a certain period of time °r, and as the control content ■, operation data 6 However, data 7 indicating mode ■-■ is transmitted as the control content ■, and data 8 indicating mode data ■-■ is also transmitted as the response @ of the split bait 1, respectively. Here, the transmission switch 5 in FIG. 1 may be set to the north of the operation switch 2. In this case, the operation data 6 in FIG. It is also easy to make the second transmission signify a stop. Incidentally, the configuration and detailed operation of the transmitting device that performs such transmission, as well as the transmission signal itself and the propagation method, are not shown in the drawings and will not be described here since they are not the gist of the present invention.

さて、本発明の主たるものである受信装置について、第
3図〜第6図を用い以下に詳細に説明する。尚、受信信
号は、前述第2図に示す送信情゛号6ベ、−コ とし、他の各種モードにおける送受信も同様であるため
、それらの説明は省略する。
Now, the receiving device which is the main feature of the present invention will be explained in detail below using FIGS. 3 to 6. Incidentally, the received signal is the transmission information 6, -, shown in FIG. 2 above, and since the transmission and reception in other various modes are the same, their explanation will be omitted.

第3図は、本発明の一実施例における受信装置のブロッ
ク図を示し、9は受信入力手段、10はデータメモリ、
11はコントローラ、12は制御手段、13.14は@
々被制御機器、15は各種設定入力手段を示す。ここで
、前述送信信号は、前記受信入力手段9により受信され
、前記コントローラ11で受信処理ができる様な信号に
変換して同コントローラ11に送られており、前記コン
トローラ11はこれを受けて、所定の場合に前記データ
メモリ10と各種データの授受を行ない、かつ所定の判
断手順の結果に基づき前記制御手段12に対して出力し
ている。前記制御手段12は、これを受けて前記被制御
機器13および14を、あるいはこれら被制御機器13
.14を有する被制御機本体の電源の駆動を行なってい
る。尚、詳細な動作説明については後述し、以後同一の
ものには同一の記号を付し、説明を省略し、本発明と関
係のない部分についても同様とする。
FIG. 3 shows a block diagram of a receiving device in an embodiment of the present invention, in which 9 is a reception input means, 10 is a data memory,
11 is a controller, 12 is a control means, 13.14 is @
15 indicates various setting input means. Here, the aforementioned transmission signal is received by the reception input means 9, converted into a signal that can be received and processed by the controller 11, and sent to the controller 11, and the controller 11 receives this, It exchanges various data with the data memory 10 in predetermined cases, and outputs data to the control means 12 based on the result of a predetermined judgment procedure. In response to this, the control means 12 controls the controlled devices 13 and 14 or these controlled devices 13.
.. The power supply for the main body of the controlled machine having 14 is driven. A detailed explanation of the operation will be given later. Hereinafter, the same parts will be denoted by the same symbols and the explanation will be omitted, and the same will apply to parts unrelated to the present invention.

以ドに、第4図〜第6図を用い、ll’tl述第2図の
送信信号全例に詳細に説明する。
Hereinafter, all examples of the transmission signals shown in FIG. 2 will be explained in detail using FIGS. 4 to 6.

第4図は、本発明の一実施例における受信装置の電子回
路図で、16は前記デルタメモI710および前記コン
トローラ11の役割を成すマイクロコンピュータ(以後
、単にマイコンと称す)で、31は被制御機本体の電源
である。このマイコン16は、ROMおよびflAM、
各種入力出力ボートなどから構成されており、前記受信
入力子J!i9より解読可能な形で受信信号を抵抗R1
を介]−て1rJT入力端子より受け、所定の手順を経
て適切な出力をEO〜G2 の各出力ポート全通じて前
記制御手段12に対して行なっている。前記制御手段1
2は、インバータ17〜23、リレー24〜3oより構
成され、前記マイコン16の出力を受けて、それぞれ対
応するリレーを駆妨する事によって、被制御機本体の運
転停止及び前記被制御機器13゜14の制#を行なって
いる。
FIG. 4 is an electronic circuit diagram of a receiving device according to an embodiment of the present invention, in which 16 is a microcomputer (hereinafter simply referred to as a microcomputer) serving as the Delta Memo I710 and the controller 11, and 31 is a controlled device. This is the power supply for the main unit. This microcomputer 16 has a ROM and flAM,
It consists of various input/output boats, etc., and the receiving input terminal J! The received signal is sent to the resistor R1 in a form that can be read by i9.
- through the 1rJT input terminal, and through a predetermined procedure, appropriate outputs are sent to the control means 12 through all output ports EO to G2. The control means 1
2 is composed of inverters 17 to 23 and relays 24 to 3o, and receives the output from the microcomputer 16 and disables the corresponding relays, thereby stopping the operation of the controlled device and shutting down the controlled device 13°. There are 14 rules in place.

尚、前記受信入力手段9は、例えば送られて来る送信信
号が光を用いたワイヤレス信号であった場合は、P I
 14ダイオード、検波器、同調器および波形成形器な
どにより構成され、かがる構成はその送信形態により周
知のごとくほぼ一意的に決まる。
Note that, for example, when the received transmission signal is a wireless signal using light, the reception input means 9 receives the P.I.
It is composed of 14 diodes, a wave detector, a tuner, a waveform shaper, etc., and its configuration is almost uniquely determined by its transmission form, as is well known.

しかしながら、その詳細な構成および説明は、前記マイ
コン16のそれと同じく、また本受信装置の電源回路等
、本発明の要旨ではなく、周知の技術で容易に出来るた
め、図示せず、説11JI’J’e省略する。
However, the detailed configuration and explanation thereof, like that of the microcomputer 16, and the power supply circuit of this receiver, are not the gist of the present invention and can be easily done using well-known techniques, and therefore are not shown in the drawings. 'eOmitted.

次に動作を、第5図及び第6図のフローチャートを併用
しながら説明する。両図は、前記マイコン16の中で行
なわれる所定の手順を示し、また本発明の遠隔制御装置
の受信制御方法を簡単に説明するものでもある。
Next, the operation will be explained using the flowcharts of FIGS. 5 and 6. Both figures show a predetermined procedure carried out in the microcomputer 16, and also briefly explain the reception control method of the remote control device of the present invention.

前記マイコン16は、その動作の初期において、1ず全
てのデータメモリのクリアを行ない、送信装置からの入
力を待つ。これらはなお、本実施例における各種メモリ
ーは実際には決められた場所の内蔵RAMを意味する。
At the beginning of its operation, the microcomputer 16 first clears all data memories and waits for input from the transmitter. Note that the various memories in this embodiment actually refer to built-in RAMs in predetermined locations.

そこで送信信号が受信されると、その信号が前記iNT
入力端子より入力され、本実施例ではインタラブドとし
て処理され、その受信信号全所定の方法で解読する。例
えば、”○”、“1″′′全信長さで送って来る場合は
それを測定するなどを行なえば良く、このための構成も
マイコンが持っているものでほぼ十分であり、周知の技
術で容易に可能であり、本発明の要旨ではないため、図
示ならびに説明を省略する。そこで解読された結果は、
受信メモリに格納される。また、受信信号の米ない間は
、かかる受信メモリの内6に解読し、先ず、正常信号で
あるかどうかを判別する。
When a transmitted signal is received there, the signal is transmitted to the iNT.
The signal is input from the input terminal, and in this embodiment, it is processed as interwoven, and all of the received signals are decoded using a predetermined method. For example, if a total transmission length of ``○'' or ``1'''' is sent, all you need to do is measure it, and the configuration for this is almost sufficient with the microcontroller, and well-known technology can be used. Since this is easily possible, and is not the gist of the present invention, illustrations and explanations will be omitted. The deciphered results are
Stored in reception memory. Furthermore, during the period when the received signal is not available, the received signal is decoded into six of the receiving memories, and first, it is determined whether the signal is normal or not.

その結果、正常信号であった場合、分類され、各種メモ
リに格納され、その内容を更新する。この時に、運転制
御信号以外は、運転メモリの内容が運転のときのみ処理
される様にしておくと、被制御機の停止時における無駄
な変更や、誤動作防止に役立ち、本実施例でもそうして
いる。これら受信信号処理後は、受信メモリの内容をク
リアしておき、運転メモリ、制御内容■◎のメモリの内
容を順次読み出しては、それぞれE、F、G各出力ポー
トに内容に則して出力する。この出力に応じて前記制御
手段12が、被制御機本体の運転、停止をあるいは、前
記被制御機器13.14のモード変更を行なう。
If the result is a normal signal, it is classified, stored in various memories, and its contents are updated. At this time, if the contents of the operation memory other than operation control signals are processed only during operation, it will be useful to prevent unnecessary changes and malfunctions when the controlled machine is stopped, and this is also the case in this example. ing. After processing these received signals, clear the contents of the reception memory, read out the contents of the operation memory and control contents ■◎ memory sequentially, and output them to the E, F, and G output ports according to the contents. do. In response to this output, the control means 12 operates or stops the main body of the controlled device or changes the mode of the controlled devices 13 and 14.

ここで、前述制御内容■の運転、停止は、E○出出水ポ
ートオン、オフにより前記リレー24のオン、オフとな
って実現され、前述制御内容■、■の■〜■は、それぞ
れ対応した、出力ポートF○〜G2のオン、オフにより
実現され、結果的に送信装置の各操作スイッチの設定に
よってコントロールされる様になる。以上、一連の処理
手順を繰り返す事により、所望の遠隔制御が実現できた
。これを、第2図に示す送信データで同じく受信信号が
得られた場合で、全ての信号が正常信号であった場合は
、先ず最初の運転信号が前記iNT入力端子に入力され
、この結果受信メモリには、運転信号がセットされ、か
つ正常信号であるため、運転メモリにも同じ内容がセッ
トされる。後に、受信メモリがクリアされ、運転メモリ
より、運転信号が取り出され、前記EO出力端子に送出
、前記制御手段1°2がこれ金受けて、被制御機に電源
全供給し、運転を開始する。はどなく、次の■−■信号
が受信され、再びi NT4子から入力、受信メモリに
今回は、■−〇信号がセットされる。同じく1丁常信号
であるため、また運転中であるため、制御内容■のメモ
リに、同信号がセットされる。先程と同じく受信メモリ
がクリアされ、今度は制御内容■のメモリより読み出さ
れた同信号により、FOlFlの両出力端子全リセット
、F2端子をセットされる墨によって、前記被制御機器
13はモード■に固定される。次の■−■信号において
も、F記と同じ様に処理され、前記被制御機器14はモ
ード■になる。しかして、各々の信号がノイズ等の外乱
で、正常受信ができなくなった場合は、それぞれ無視さ
れ、各メモリの内容は保持されており、誤動作する事は
ない。
Here, the operation and stopping of the control content (■) described above is realized by turning on and off the relay 24 by turning on and off the E○ Izumi port, and the above-mentioned control content (■) and (■) to (■) of ■ correspond to each other. , is realized by turning on and off the output ports F○ to G2, and as a result, it comes to be controlled by the settings of each operation switch of the transmitting device. By repeating the above-mentioned series of processing steps, the desired remote control was achieved. If the same received signals are obtained with the transmission data shown in Fig. 2, and all the signals are normal, the first operation signal is input to the iNT input terminal, and as a result, the reception The operation signal is set in the memory, and since it is a normal signal, the same content is also set in the operation memory. Afterwards, the receiving memory is cleared, and the operating signal is taken out from the operating memory and sent to the EO output terminal, and the control means 1°2 receives this signal, fully supplies power to the controlled machine, and starts operation. . Suddenly, the next ■-■ signal is received, input again from the iNT4 child, and this time the ■-○ signal is set in the reception memory. Since this is also a regular signal, and since the vehicle is in operation, the same signal is set in the memory for control details (2). As before, the reception memory is cleared, and this time, with the same signal read from the memory with control content ■, all output terminals of FOlFl are reset, and the F2 terminal is set, and the controlled device 13 is set to mode ■. Fixed. The next ■-■ signal is also processed in the same manner as described in F, and the controlled device 14 enters the mode ■. Therefore, if each signal cannot be received normally due to disturbance such as noise, each signal is ignored, the contents of each memory are retained, and no malfunction occurs.

尚、本発明の一実施例では、前記受信入力手段9よりの
受信信号を、前記マイコン16のiNT端子に入力、こ
れ全インタラブド処理させたが、他に2線式あるいは3
線式のハンドシェイタ方式など、マイコンにより取り込
める他の如何なる方式を採用しても良いし、又、マイコ
ンでなくても上述した機能を持つ様にしたLSiでも良
い。また前記設定入力手段においては、それ程の選択を
あらかじめ望まないのであれば、プログラムの中にその
設定を折り込み、外部ジャンパー線等、各種部品をなく
しても良く、さらに比較的選択を自由に行ないたければ
、前記ジャンパー線J1.J2の所をスイッチとすれば
良い。また当然の事ながら、データメモリをバックアン
プ可能なものとし、受信装置のオン・オフによる整置を
なくすることも容易である。
In one embodiment of the present invention, the received signal from the reception input means 9 is input to the iNT terminal of the microcomputer 16 and all of the signals are subjected to inter-interconnected processing.
Any other method that can be incorporated by a microcomputer, such as a wire handshake method, may be used, or an LSi having the above-mentioned functions may be used instead of a microcomputer. In addition, in the setting input means, if you do not want to make that many selections in advance, you can incorporate the settings into the program and eliminate various parts such as external jumper wires. For example, the jumper wire J1. Just use J2 as a switch. Naturally, it is also easy to make the data memory capable of back-amplification and eliminate the need for alignment due to turning on and off the receiving device.

各制御内容が直接出力ポートに出ない内容であっても当
然良く、又、送信装置の内容及び、送信伝播形式(光、
音、′電波等を用いた!に線あるいは無線で、シリアル
あるいはパラレル信号によるもの)は何でも良く、」二
記いずれの場合も、本発明の要旨を脱し得るものではな
い。
Of course, each control content may be content that does not directly output to the output port, and the content of the transmitting device and the transmission propagation format (optical,
Using sound, radio waves, etc.! In either case, the gist of the present invention is not departed from the scope of the present invention.

以上詳述した様に、本発明による受信方法によ九ば、受
信入力手段と、データメモリと、コント13 、 ローラと、制御手段との簡単な構成で実現でき、操作性
のすぐれたプリセット式送信装置ti採用でき、かつそ
の実使用面において多くの利点が牛−土れるだけでなく
、その場合にも誤動作防止がii J′Lるなど、実用
性、融通性に富んだものが実現でき、特に比較的離れた
場所間、あるいはノイズの多い状況下での遠隔制御に倹
めて有意義かつ便利である。しかも、送信装置にプリセ
ット式を使用できるため、使用者において、送信時ある
いは、送信後に各送信モードが一目で確認でき、また操
作においても簡単で、きわめて便利である。
As detailed above, the reception method according to the present invention can be realized with a simple configuration of a reception input means, a data memory, a controller 13, a roller, and a control means, and is a preset type with excellent operability. Not only can it be used as a transmitter and has many advantages in actual use, but it also prevents malfunctions, making it highly practical and flexible. It is particularly useful for remote control between relatively distant locations or under noisy conditions. Moreover, since a preset type can be used for the transmitter, the user can check each transmission mode at a glance during or after transmission, and the operation is simple and extremely convenient.

【図面の簡単な説明】[Brief explanation of drawings]

図は本発明の一実施例を示すもので、第1図は送信装置
の正面図、第2図は同送信装置のスイノ図 チ設定における送信信号のタイミングチャート、1第3
図は受信装置のブロック図、第4図は同電子回路図、第
5図及び第6図は受信制御手順を示す國 フローチャートである。 9・・・・・・受信入力手段、1o・・・・・・データ
メモリ、11・・・・・・コントローラ、12・・・・
・・制御子14、、− 、 段、16・・・・・・マイクロコンピュータ(マイコン
)。 代理人の氏名 弁理士 中 尾 敏 男 ほか1名第4
図 第 3 図 第5F5!J
The figures show one embodiment of the present invention, in which Fig. 1 is a front view of a transmitting device, Fig. 2 is a timing chart of a transmitting signal in the setting of the transmitting device, and 1.
FIG. 4 is a block diagram of the receiving device, FIG. 4 is an electronic circuit diagram thereof, and FIGS. 5 and 6 are flowcharts showing the reception control procedure. 9... Reception input means, 1o... Data memory, 11... Controller, 12...
...controller 14, -, stage, 16... microcomputer (microcomputer). Name of agent: Patent attorney Toshio Nakao and 1 other person No. 4
Figure 3 Figure 5F5! J

Claims (1)

【特許請求の範囲】 被制御機から離れた位置から所定の伝播信号を送信する
送信装置と、前記送信信号を受信し、その受信信号に応
じて被制御機の運転状態を切換制御するよう働く受信装
置と全備え、前記送18装置は、各所望の複数の制御内
容を設定し、かつそれぞれ一つの制御内存を1つの信号
単位とし、それらを順次送出し、まとめたものを1つの
送信48号とし、かつ所定の伝播信号に変換させるもの
で、また前記受信装置は、かかる送信信号を受信する受
信手段と、この受信信号をその制御内容に応じて解読す
るコントローラと、このコントローラによりその各種受
信信号を記憶するデータメモリと、被制御機の運転状態
を切換制御駆動する制御手段とを具備し、前記運転制御
状態を前記送信装置より所望の設定に切換制御駆動する
際に、いったん前記受信信号を前記データメモリに格納
し、前記2、− 。 データメモリの内容に応じて切換制御駆動する遠隔制御
装置の受信制御方法。
[Scope of Claims] A transmitting device that transmits a predetermined propagation signal from a position remote from a controlled machine, and a transmitting device that receives the transmitted signal and operates to switch and control the operating state of the controlled machine in accordance with the received signal. The transmitting device 18, which is equipped with a receiving device, sets a plurality of desired control contents, treats each control content as one signal unit, and sequentially transmits them, and combines them into one transmitting device 48. and converts it into a predetermined propagation signal, and the receiving device includes a receiving means for receiving the transmitted signal, a controller for decoding the received signal according to the control content thereof, and a controller for transmitting various types of signals. It is equipped with a data memory for storing received signals, and a control means for switching and driving the operating state of the controlled machine, and when the operating control state is switched and controlled from the transmitting device to a desired setting, once the receiving signal is storing a signal in said data memory; said 2.-; A reception control method for a remote control device that performs switching control according to the contents of a data memory.
JP1510882A 1982-02-01 1982-02-01 Reception controlling method of remote control device Granted JPS58131891A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP1510882A JPS58131891A (en) 1982-02-01 1982-02-01 Reception controlling method of remote control device

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP1510882A JPS58131891A (en) 1982-02-01 1982-02-01 Reception controlling method of remote control device

Publications (2)

Publication Number Publication Date
JPS58131891A true JPS58131891A (en) 1983-08-05
JPH0143518B2 JPH0143518B2 (en) 1989-09-21

Family

ID=11879634

Family Applications (1)

Application Number Title Priority Date Filing Date
JP1510882A Granted JPS58131891A (en) 1982-02-01 1982-02-01 Reception controlling method of remote control device

Country Status (1)

Country Link
JP (1) JPS58131891A (en)

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
FR2575573A1 (en) * 1984-12-28 1986-07-04 Radiotechnique REMOTE RECEIVER DEVICE USING A MODULATED CARRIER WAVE
JPH0191679A (en) * 1987-09-30 1989-04-11 Alps Electric Co Ltd Electrostriction motor

Citations (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS57181293A (en) * 1981-04-30 1982-11-08 Sharp Corp Remote controller

Patent Citations (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS57181293A (en) * 1981-04-30 1982-11-08 Sharp Corp Remote controller

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
FR2575573A1 (en) * 1984-12-28 1986-07-04 Radiotechnique REMOTE RECEIVER DEVICE USING A MODULATED CARRIER WAVE
JPH0191679A (en) * 1987-09-30 1989-04-11 Alps Electric Co Ltd Electrostriction motor

Also Published As

Publication number Publication date
JPH0143518B2 (en) 1989-09-21

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