JP3662265B2 - Facsimile device - Google Patents

Description

【００３０】
である。
Ｌ１、Ｌ２間の電圧Ｖ_L1-L2は、電流Ｉが流れた場合の回線電流検出手段１１、ＬＣフィルタ１３、整流ダイオード１４、およびフォトカプラ１６のそれぞれの電圧降下の和ΔＶにＶ１を加えた電圧である。
【００３１】
【数２】

【００３２】
ここで、電流制限手段２８において、抵抗Ｒ２の両端の電圧（Ｉ×Ｒ１＋Ｖ_BE）がツェナーダイオードＺＤ１のツェナー電圧Ｖ_ZD1 以上になると電流制限がかかる。
【００３３】
【数３】

【００３４】
次に、図３に示すグラフは直流抵抗値の例を示す図である。
図３のように、Ａ国〜Ｄ国の直流抵抗値の上限および下限を示す。また、参考として、実線で示すファクシミリ装置の直流抵抗値は、回線電流Ｉによって動的に決定する。
次に、図４に示す受信フィルタの構成およびフィルタのレベル特性について説明する。
【００３５】
図４ａに示すように、従来は、１００Ｈｚの信号を検出するために、ダイヤルトーン検出用フィルタで１００Ｈｚの信号を増幅させ、受信用フィルタとダイヤルトーン検出用フィルタを切り換えていた。
図４ｂに示すように、従来は、受信フィルタのロー・パス・フィルタを多段構成にして、入力信号を受信画像に影響しないようにしていた。
【００３６】
図４ｃに示すように、参考として、受信フィルタをバンド・パス・フィルタで構成することで、信号レベルを減衰させることができ、フィルタの数を少なくすることができる。
次に、図５に示すフローチャートに基づいてダイヤルパルスの発信動作を説明する。
【００３７】
送信時に、ファクシミリ装置はリレー１２を外付け電話からファクシミリ装置へ切り換える（処理Ｓ１）。ファクシミリ側へ切り換えられると、ＰＳＴＮ回線から回線電流が流れ、回線電流検出手段１１がｏｎする（処理Ｓ２）。オペレータは、送信相手の番号を操作表示部７より入力し、送信する（処理Ｓ３）。このとき、オペレータの電話回線がダイヤルパルス回線か否かを判断し（処理Ｓ４）、ダイヤルパルス回線の場合には、フォトカプラ１６をｏｆｆにしフォトカプラ１５をｏｎ／ｏｆｆすることで発信する（処理Ｓ５）。
【００３８】
また、ダイヤルパルス回線ではなくＰＢ信号の場合にはファクシミリのモデム２４より発信する（処理Ｓ６）。
次に、参考として、図６に示すフローチャートに基づいて外付け電話から発信する発信動作を説明する。
また、外付け電話から発信する場合には、外付け電話の受話器が持ち上げられると（処理Ｓ７）、回線電流検出手段１１が回線電流を検知し（処理Ｓ８）、フォトカプラ１９をｏｆｆにし、リンギング検出回路２０を切り離す（処理Ｓ９）。電話の場合には、相手電話と接続終了後（処理Ｓ１０，処理Ｓ１１，処理Ｓ１２）、外付け電話の受話器を戻すと、回線電流検出手段１１が回線電流を非検出し（処理Ｓ１３）、フォトカプラ１９をｏｎして、リンギング検出回路２０を接続する（処理Ｓ１４）。
【００３９】
処理Ｓ１０で、ファクシミリ送信の場合には、相手ファクシミリと接続後にファクシミリ送信を行い（処理Ｓ１５）、送信終了後に（処理Ｓ１６）、回線電流検出手段１１が回線電流を非検出し（処理Ｓ１３）、フォトカプラ１９をｏｆｆにして、リンギング検出回路２０を接続する（処理Ｓ１４）。
次に、参考として、図７に示すフローチャートに基づいてＴＥＬ／ＦＡＸを自動受信する動作を説明する。
【００４０】
ＴＥＬ／ＦＡＸを自動受信する場合には、相手からの呼び出し信号を、リンギング検出回路２０が検出すると（処理Ｓ２０）、リレー１２を電話からファクシミリ側に切り換え（処理Ｓ２１）、相手からコーリング・トーン１１００Ｈｚの信号が送られてくるか否かを判断し（処理Ｓ２２）、コーリング・トーンを受信した場合には、被呼端末識別信号２１００Ｈｚ信号を返し（処理Ｓ２３）、ファクシミリ受信を行う（処理Ｓ２４）。コーリング・トーン１１００Ｈｚ信号が送られてこない場合には、音声ＩＣ２５から”ただ今ファクシミリに接続されてます”等のメッセージを出力して相手に送る（処理Ｓ２５）。
【００４１】
次に、参考として、図８に示すフローチャートに基づいて留守番電話モードの動作を説明する。
留守番電話モードの場合には、留守番電話に接続されていて、リンギング検出回路２０が呼び出し信号設定回数前に留守番電話に着信すると（処理Ｓ３０）、相手からコーリング・トーン１１００Ｈｚの信号が送られてくるか否かを判断し（処理Ｓ３１）、コーリング・トーンを受信した場合には、リレー１２を電話からファクシミリ側に切り換え、被呼端末識別信号２１００Ｈｚ信号を返し（処理Ｓ３２）、ファクシミリ受信を始める（処理Ｓ３３）。処理Ｓ３１で、相手が電話の場合には留守番電話が動作し続け留守番電話にメッセージを録音する（処理Ｓ３４）。
【００４２】
次に、図９に示すフローチャートに基づいて電話モードの動作を説明する。
電話モードの場合には、着呼後（処理Ｓ４０）、オペレータが外付け電話の受話器を持ち上げ、回線を閉結し（処理Ｓ４１）、外付け電話からＰＢ信号を送出し、モデムがこのＰＢ信号を検出すると（処理Ｓ４２）、ファクシミリ受信動作を行う（処理Ｓ４３）。
【００４３】
次に、図１０に示すフローチャートに基づいて自動発呼の動作を説明する。
自動発呼の場合には、送信原稿をスキャナ１にセットし（処理Ｓ５０）、相手ファクシミリの番号を入力すると（処理Ｓ５１）、リレー１２をファクシミリ側に切り換え、ダイヤルトーンを検出したか否かを判断し（処理Ｓ５２）、ダイヤルトーンが検出された場合には、発呼を行う。ダイヤルトーンが検出されなかった場合には、回線を切断する（処理Ｓ５４）。
【００４９】
次に、請求項１に係る発明の作用効果を説明する。
ＰＳＴＮ回線に接続して、整流ダイオードが一定方向に回線電流を整流し、回線電流検出手段がＰＳＴＮ回線の回線電流を検出する。回線電流検出手段により検出された回線電流が異常である場合には、駆動手段がフォトカプラの発光ダイオードの駆動を解除し、消灯を検知したフォトカプラのフォトランジスタが整流ダイオードにより整流された回線電流を遮断するので、回線電流が異常な場合には、ファクシミリ装置および交換機の破損を防ぐことができるファクシミリ装置を提供することができる。
【００５１】
【発明の効果】
留守番電話や外付け電話やＡＣ電源を使用するような電話を接続しても正常に動作し、回線電流が異常な場合には電流制限をし、ファクシミリ装置および交換機の破損を防ぐことができる。
【図面の簡単な説明】
【図１】本発明の一実施例であるファクシミリ装置のシステム構成を示す図である。
【図２】本発明の一実施例であるファクシミリ装置の通信制御部の構成を示す図である。
【図３】本発明の一実施例である直流抵抗値の例を示す図である。
【図４】本発明の一実施例である受信フィルタの構成およびフィルタのレベル特性を示す図である。
【図５】本発明の一実施例であるダイヤルパルスの発信動作のフローチャートを示す図である。
【図６】本発明の一実施例である外付け電話から発信する動作のフローチャートを示す図である。
【図７】本発明の一実施例であるＴＥＬ／ＦＡＸを自動受信する動作のフローチャートを示す図である。
【図８】本発明の一実施例である留守番電話モードの動作のフローチャートを示す図である。
【図９】本発明の一実施例である電話モードの動作のフローチャートを示す図である。
【図１０】本発明の一実施例である自動発呼の動作のフローチャートを示す図である。
【符号の説明】
１ スキャナ部
２ プロッタ部
３ システム制御部
４ システムメモリ部
５ 画情報メモリ部
６ 符号化復号化部
７ 操作表示部
８ 通信制御部
９ 内部バス
１１ 回線電流検出手段
１２ リレー
１３ ＬＣフィルタ
１４ 整流ダイオード
１５ スイッチ
１６ ダイヤルショートリレー
１７ 直流抵抗
１８ トランス
１９ スイッチ
２０ リンギング検出回路
２１ ハイ・インピーダンス・トランス
２２ 受信フィルタ
２３ 送信フィルタ
２４ モデム
２５ 音声ＩＣ
２６ 駆動手段
２７ ＣＰＵ
２８ 電流制限手段
１００ ファクシミリ装置[0001]
[Industrial application fields]
The present invention relates to a facsimile apparatus, and in particular, operates normally even if an answering machine connected to a PSTN line, an external telephone, or a telephone using an AC power supply is connected, and the current is limited when the line current is abnormal. The present invention relates to a facsimile apparatus that can prevent damage to the facsimile apparatus and the exchange.
[0002]
[Prior art]
Conventionally, a “facsimile device remote control device” described in Japanese Patent Laid-Open No. 2-230857 has been proposed as a facsimile device. By changing the state of the facsimile apparatus using a DTMF signal emitted from a push button telephone, the internal state of the facsimile apparatus can be changed from a remote place without adding a control device outside the facsimile apparatus. Has advantages.
[0003]
[Problems to be solved by the invention]
However, the conventional “facsimile device remote control device” has the following problems.
[0005]
Further, when a failure occurs in the exchange, there is a problem that an overcurrent flows due to this and the transistor is damaged.
Therefore, the present invention operates normally even when an answering machine, an external telephone, or a telephone that uses an AC power supply is connected. If the line current is abnormal, the current is limited, and the facsimile machine and the exchange are damaged. It is an object of the present invention to provide a facsimile apparatus that can prevent such a situation.
[0006]
[Means for Solving the Problems]
Means for solving the problems are as follows.
[0011]
[Means for Solving the Problems]
In order to solve the above-mentioned problem, the invention according to claim 1 is a facsimile apparatus that communicates image information via a PSTN line. The rectifier diode is connected to the PSTN line and rectifies line current in a fixed direction, Line current detection means for detecting the line current of the photocoupler, a photocoupler that is a dial pulse transmission switch, and each light emitting diode of the photocoupler that prevents the dial pulse waveform from being distorted by turning off when dial pulse transmission, when the line current detected by the line current detection means is abnormal, a driving means for releasing the drive of the respective light emitting diodes, the line current the rectified by detecting the extinguishing of the light emitting diode rectifier diode And a phototransistor for shutting off the light.
[0018]
In the invention according to claim 1, the rectifier diode is connected to the PSTN line, rectifies the line current in a fixed direction, and the line current detection means detects the line current of the PSTN line. When the line current detected by the line current detecting means is abnormal, the driving means releases the driving of the light emitting diode of the photocoupler, and the line current obtained by rectifying the phototransistor of the photocoupler detected to be turned off by the rectifying diode initially it prevents, when the line current is abnormal, it is possible to prevent damage to the facsimile apparatus and the exchange.
[0020]
【Example】
Embodiments of the present invention will be described below with reference to the drawings.
First, the system configuration of the facsimile apparatus will be described.
FIG. 1 is a system configuration diagram of a facsimile apparatus according to an embodiment of the present invention.
As shown in FIG. 1, in the facsimile apparatus 100, the scanner unit 1 reads image data having a predetermined resolution from a document image. The plotter 2 physically records image data on roll paper. The system control unit 3 includes a CPU, a ROM, a RAM, and the like, and controls each unit to realize a predetermined operation of the facsimile apparatus. The system memory unit 4 stores a received file including an operation file and a page file, and has a timer having a battery indicating the current time. The image information memory unit 5 stores the image data of the original read by the scanner 1 and also stores the encoded image information received by the communication control unit 8. The encoding / decoding unit 6 encodes the image data to be transmitted into the image information and also decodes the received image information into the image data. The operation display unit 7 displays operation guidance, various abnormality messages, and the like, and the facsimile apparatus performs various operations for executing predetermined transmission / reception processing and copy functions according to the guidance.
[0021]
The communication control unit 8 supplements the PSTN line, transmits a selection signal as a destination facsimile number based on the G3 facsimile communication protocol, performs a predetermined call / incoming operation by detecting an incoming call, and the like. Receive image information.
The internal bus 9 exchanges data with each unit existing in the facsimile machine 100. The facsimile machine 100 is a facsimile machine that is an embodiment of the present invention.
[0022]
FIG. 2 is a diagram showing the configuration of the communication control unit of the facsimile apparatus according to one embodiment of the present invention.
As shown in FIG. 2, L1 and L2 are public lines or dedicated lines. TEL 1 and TEL 2 are telephones that can be connected to the facsimile machine 100. Line current detection means 11 detects the current of the PSTN line. The relay 12 is a mechanical relay that switches between a telephone line and a facsimile machine. The LC filter 13 is a parallel resonance circuit composed of an inductor and a capacitor, and sets the resonance frequency to 16 kHz and attenuates the input signal level of 16 kHz. The rectifier diode 14 allows the line current after rectification to flow in a certain direction. The photocoupler 15 is a dial pulse transmission switch, and a dial pulse is generated by turning this switch on / off. The photocoupler 16 prevents the dial pulse waveform from being distorted by turning it off when dial pulse is transmitted. The DC resistor 17 is a part that controls the value of the DC resistor. The transformer 18 is a transformer that insulates the PSTN line from the facsimile apparatus and inputs / outputs a transmission / reception signal from the facsimile apparatus 100 to the PSTN line. The photocoupler 19 disconnects the ringing detection circuit 20 by turning off this switch when the external telephone transmits a dial pulse. The ringing detection circuit 20 is a circuit for detecting a calling signal from the exchange. The high impedance transformer 21 is a transformer for detecting a calling tone CNG when an answering machine is received and detecting a PB signal from an external telephone.
[0023]
The reception filter 22 is a band pass filter that amplifies the reception signal and blocks a signal outside the voice band. The transmission filter 23 is a band pass filter that amplifies a transmission signal and blocks a signal outside the voice band. The modem 24 modulates the transmission signal and demodulates the reception signal. The voice IC 25 generates a voice message to the partner facsimile machine when receiving an incoming call.
[0024]
The driving means 26 drives the light-emitting diodes of the photocouplers constituting the photocoupler 15, the photocoupler 16, and the photocoupler 19 according to a command from the communication control unit. The CPU 27 controls each means existing in the communication control unit 8 and communicates based on the G3 facsimile communication protocol, and exchanges data with each unit existing in the facsimile apparatus 100 via the internal bus 9. Do.
[0025]
The LC filter 13 uses an LC resonance to increase the impedance at an unnecessary input frequency outside an audio band and increase the impedance at that frequency to attenuate the level of the input signal. Attenuate within the operable voltage. In the present invention, the input signal of 16 kHz is attenuated by +20 dbm so that the received image is not affected.
[0026]
The photocoupler 19 disconnects the external telephone and the ringing detection circuit 20 so that the TEL1, TEL2 and the ringing detection circuit 20 are connected. The bluntness of the pulse waveform can be avoided and the exchange can recognize it.
When the modem 24 is in the answering machine mode, it detects the CNG signal sent from the transmitting station via the high impedance transformer 21 when the external telephone closes the line, and the facsimile receiving operation is performed. I do. In the telephone mode, the facsimile reception operation is performed when a PB signal is detected when an external telephone closes the line.
[0027]
The modem 24 is configured to amplify a 100 Hz signal when detecting a dial tone in order to detect a dial tone (100 Hz) outside the voice band.
The current limiting means 28 is current limited when the voltage across the resistor R2 becomes equal to or higher than the Zener voltage VZD1 of the Zener diode ZD1.
Next, for reference, the DC resistor 17 shown in FIG. 2 will be described.
[0028]
As shown in FIG. 2, the DC resistor 17 includes a Zener diode ZD1, resistors R1 to R5, a capacitor C, and transistors TR1 to TR2.
When a voltage that turns on the rectifier diode 14 is generated between L1 and L2 via the PSTN line, a current I flows through the rectifier diode 14.
When the current I flows, the two ends (A point, B point) of the DC resistance 17 voltage V1 generated in the by the current amplification factor h _FE of the transistor TR1,
[0029]
[Expression 1]

[0030]
It is.
The voltage V _L1- L2 between L1 and L2 is obtained by adding V1 to the sum ΔV of the voltage drops of the line current detecting means 11, the LC filter 13, the rectifier diode 14, and the photocoupler 16 when the current I flows. Voltage.
[0031]
[Expression 2]

[0032]
Here, in the current limiting means 28, when the voltage (I × R1 + V _BE ) across the resistor R2 becomes equal to or higher than the Zener voltage V _ZD1 of the Zener diode ZD1, current limitation is applied.
[0033]
[Equation 3]

[0034]
Next, the graph shown in FIG. 3 is a diagram showing an example of the DC resistance value.
As shown in FIG. 3, the upper limit and the lower limit of the direct current resistance values in the countries A to D are shown. For reference, the DC resistance value of the facsimile machine indicated by the solid line is dynamically determined by the line current I.
Next, the configuration of the reception filter shown in FIG. 4 and the level characteristics of the filter will be described.
[0035]
As shown in FIG. 4a, conventionally, in order to detect a 100 Hz signal, a 100 Hz signal is amplified by a dial tone detection filter, and the reception filter and the dial tone detection filter are switched.
As shown in FIG. 4b, conventionally, the low-pass filter of the reception filter has a multi-stage configuration so that the input signal does not affect the received image.
[0036]
As shown in FIG. 4c, as a reference, by configuring the reception filter with a band pass filter, the signal level can be attenuated and the number of filters can be reduced.
Next, dial pulse transmission operation will be described based on the flowchart shown in FIG.
[0037]
At the time of transmission, the facsimile apparatus switches the relay 12 from the external telephone to the facsimile apparatus (processing S1). When switching to the facsimile side, a line current flows from the PSTN line, and the line current detecting means 11 is turned on (processing S2). The operator inputs the transmission partner number from the operation display unit 7 and transmits it (processing S3). At this time, it is determined whether or not the operator's telephone line is a dial pulse line (process S4), and in the case of a dial pulse line, the photocoupler 16 is turned off and the photocoupler 15 is turned on / off (process). S5).
[0038]
Further, in the case of a PB signal instead of a dial pulse line, it is transmitted from the facsimile modem 24 (process S6).
Next, for reference, a call operation for making a call from an external telephone will be described based on the flowchart shown in FIG.
When making a call from an external telephone, when the handset of the external telephone is lifted (process S7), the line current detecting means 11 detects the line current (process S8), the photocoupler 19 is turned off, and ringing is performed. The detection circuit 20 is disconnected (process S9). In the case of a telephone, after the connection with the other party telephone is completed (process S10, process S11, process S12), when the handset of the external telephone is returned, the line current detecting means 11 does not detect the line current (process S13), and the photo The coupler 19 is turned on and the ringing detection circuit 20 is connected (processing S14).
[0039]
In the case of facsimile transmission in processing S10, facsimile transmission is performed after connection with the partner facsimile (processing S15). After transmission is completed (processing S16), the line current detecting means 11 detects no line current (processing S13). The photocoupler 19 is turned off and the ringing detection circuit 20 is connected (processing S14).
Next, for reference, an operation for automatically receiving TEL / FAX will be described based on the flowchart shown in FIG.
[0040]
In the case of automatically receiving TEL / FAX, when the ringing detection circuit 20 detects a call signal from the other party (process S20), the relay 12 is switched from the telephone to the facsimile side (process S21), and the calling tone from the other party is 1100 Hz. Is received (processing S22), and when a calling tone is received, a called terminal identification signal 2100 Hz signal is returned (processing S23), and facsimile reception is performed (processing S24). . If the calling tone 1100 Hz signal is not sent, a message such as “I am connected to a facsimile now” is output from the voice IC 25 and sent to the other party (step S25).
[0041]
Next, for reference, the operation in the answering machine mode will be described based on the flowchart shown in FIG.
In the answering machine mode, when connected to the answering machine and the ringing detection circuit 20 receives the answering machine before the set number of ringing signals (step S30), a call tone 1100 Hz signal is sent from the other party. When the calling tone is received, the relay 12 is switched from the telephone to the facsimile side, the called terminal identification signal 2100 Hz signal is returned (processing S32), and facsimile reception is started (step S32). Process S33). If the other party is a telephone in process S31, the answering machine continues to operate and a message is recorded on the answering machine (process S34).
[0042]
Next, the operation in the telephone mode will be described based on the flowchart shown in FIG.
In the case of the telephone mode, after an incoming call (process S40), the operator lifts the handset of the external telephone, closes the line (process S41), sends a PB signal from the external telephone, and the modem transmits this PB signal. Is detected (process S42), a facsimile reception operation is performed (process S43).
[0043]
Next, the automatic call operation will be described based on the flowchart shown in FIG.
In the case of automatic calling, the document to be sent is set on the scanner 1 (process S50), and the number of the other party's facsimile is input (process S51). A determination is made (step S52), and if a dial tone is detected, a call is made. If the dial tone is not detected, the line is disconnected (process S54).
[0049]
Next, the function and effect of the invention according to claim 1 will be described.
Connected to the PSTN line, the rectifier diode rectifies the line current in a fixed direction, and the line current detection means detects the line current of the PSTN line. When the line current detected by the line current detecting means is abnormal, the driving means releases the driving of the light emitting diode of the photocoupler, and the line current obtained by rectifying the phototransistor of the photocoupler detected to be turned off by the rectifying diode initially prevents, when the line current is abnormal, it is possible to provide a facsimile apparatus which can prevent damage to the facsimile apparatus and the exchange.
[0051]
【The invention's effect】
Even if an answering machine, an external telephone, or a telephone that uses an AC power supply is connected, it operates normally. When the line current is abnormal, the current is limited to prevent the facsimile apparatus and the exchange from being damaged.
[Brief description of the drawings]
FIG. 1 is a diagram showing a system configuration of a facsimile apparatus according to an embodiment of the present invention.
FIG. 2 is a diagram illustrating a configuration of a communication control unit of a facsimile apparatus according to an embodiment of the present invention.
FIG. 3 is a diagram illustrating an example of a DC resistance value according to an embodiment of the present invention.
FIG. 4 is a diagram illustrating a configuration of a reception filter and a level characteristic of the filter according to an embodiment of the present invention.
FIG. 5 is a flowchart of a dial pulse transmission operation according to an embodiment of the present invention.
FIG. 6 is a flowchart of an operation for making a call from an external telephone according to an embodiment of the present invention.
FIG. 7 is a flowchart illustrating an operation for automatically receiving TEL / FAX according to an embodiment of the present invention.
FIG. 8 is a flowchart of an operation in an answering machine mode according to an embodiment of the present invention.
FIG. 9 is a diagram showing a flowchart of an operation in a telephone mode according to an embodiment of the present invention.
FIG. 10 is a diagram showing a flowchart of an automatic call operation according to an embodiment of the present invention.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Scanner part 2 Plotter part 3 System control part 4 System memory part 5 Image information memory part 6 Encoding / decoding part 7 Operation display part 8 Communication control part 9 Internal bus 11 Line current detection means 12 Relay 13 LC filter 14 Rectifier diode 15 Switch 16 Dial short relay 17 DC resistance 18 Transformer 19 Switch 20 Ringing detection circuit 21 High impedance transformer 22 Reception filter 23 Transmission filter 24 Modem 25 Voice IC
26 Driving means 27 CPU
28 Current Limiting Unit 100 Facsimile Device

Claims (1)

In a facsimile apparatus that communicates image information via a PSTN line, a rectifier diode that is connected to the PSTN line and rectifies the line current in a certain direction, line current detection means that detects the line current of the PSTN line,
Photocouplers that are switches for dial pulse transmission, and each light emitting diode of the photocoupler that prevents the dial pulse waveform from being distorted by turning off when dial pulses are transmitted,
If the line current detected by the line current detection means is abnormal, the drive means for releasing the drive of each light emitting diode;
A facsimile apparatus, comprising: a phototransistor that detects the turn-off of each of the light-emitting diodes and cuts off the line current rectified by the rectifier diode.

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