JPWO2006061878A6 - Window communication device - Google Patents

Window communication device Download PDF

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JPWO2006061878A6
JPWO2006061878A6 JP2006546569A JP2006546569A JPWO2006061878A6 JP WO2006061878 A6 JPWO2006061878 A6 JP WO2006061878A6 JP 2006546569 A JP2006546569 A JP 2006546569A JP 2006546569 A JP2006546569 A JP 2006546569A JP WO2006061878 A6 JPWO2006061878 A6 JP WO2006061878A6
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voice
microphone
amplifier
frequency
room
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JPWO2006061878A1 (en
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好昭 原村
尊道 谷本
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日本電音株式会社
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Abstract

遊園地、映画館、劇場、鉄道等の切符売り場や案内場、金融機関の相談または融資窓口、または面談システム等に見られるような部屋の外側と内側を仕切る板または壁を介して部屋の外側の者と内側の者の通話をスムーズに行うことができる通話装置を提供する。仕切り板または壁を介して部屋の外側の者と内側の者が通話を行うことができる通話装置であって、受話側の音声増幅系統として部屋の外側の者の音声を拾う受話マイクと、受話マイクから入力された音声を増幅する受話アンプと、受話アンプで増幅された音声を出力する室内スピーカとを具備し、送話側の音声増幅系統として部屋の内側の者の音声を拾う送話マイクと、送話マイクから入力された音声を増幅する送話アンプと、送話アンプで増幅された音声を出力する室外スピーカとを具備するものにおいて、送話マイクと送話アンプを結ぶラインから分離して、人が発する声の基本周波数が占める帯域を認識する周波数を通過する帯域通過フィルタと、それを通過した音声を検知する音声検知回路を設け、この回路が音声を検知したときに受話側の音声増幅系統の出力を減衰するかまたはOFFにすることを特徴とする通話装置。
Outside the room through a board or wall that separates the outside and inside of the room as seen in amusement parks, cinemas, theaters, railway ticket offices and information centers, financial institution consultations or loan counters, or interview systems, etc. Provided is a call device capable of smoothly making a call between a person inside and a person inside. A call device that allows a person outside and inside the room to talk via a partition plate or wall, and a receiving microphone that picks up the voice of the person outside the room as a receiving side audio amplification system, and receiving A microphone for picking up the voice of a person inside the room as a voice amplification system on the transmission side, comprising a reception amplifier for amplifying the voice input from the microphone and an indoor speaker for outputting the voice amplified by the reception amplifier And a speaker amplifier that amplifies the voice input from the microphone, and an outdoor speaker that outputs the voice amplified by the microphone, separated from the line connecting the microphone and the voice amplifier When a voice is detected by this circuit, a band-pass filter that passes the frequency that recognizes the band occupied by the fundamental frequency of the voice uttered by a person and a voice detection circuit that detects the voice that passes through the band-pass filter are provided. Communication device, characterized by the or OFF to attenuate the output of the audio amplification system of the receiving side.

Description

本発明は遊園地、映画館、劇場、鉄道等の切符売り場や案内場、金融機関の相談または融資窓口、または面談システム等に見られるような部屋の外側と内側を仕切る板または壁を介して部屋の外側の者と内側の者の通話をスムーズに行うことができる通話装置に関する。   The present invention is provided through a board or wall that partitions the outside and inside of a room such as those found in amusement parks, movie theaters, theaters, railway ticket offices and information centers, financial institution consultations or loan counters, or interview systems. The present invention relates to a call device that can smoothly perform a call between an outside person and an inside person.

従来の一般的な通話装置について特に図1の遊園地の切符売り場の例を挙げて説明する。一般的に切符売り場は部屋の内側(室内)にいる切符の販売者が部屋の外側(室外)にいる切符の購入者と、「切符を求める」、「切符の金額を知らせる」、「切符を提供してお金を受け取る」等の目的のために会話をスムーズにやりとりして誤りの無い切符を売るようになされている。   A conventional general communication device will be described with reference to an example of an amusement park ticket office in FIG. In general, the ticket office is where the ticket seller inside the room (indoor) and the ticket purchaser outside the room (outside the room) and the "purchase ticket", "notify the ticket price", " For the purpose of “provide and receive money”, the conversation is smoothly exchanged and an error-free ticket is sold.

このような通話装置においては、図1及び図2に示すように購入者の音声を販売者に伝えるために室外の者の音声を拾う受話マイクと、受話マイクから入力された音声を増幅する受話アンプと、受話アンプで増幅された音声を出力する室内スピーカを設け、販売者の音声を購入者に伝えるために室内の者の音声を拾う送話マイクと、送話マイクから入力された音声を増幅する送話アンプと、送話アンプで増幅された音声を出力する室外スピーカを設けている(特許文献1参照)。   In such a communication device, as shown in FIGS. 1 and 2, a receiving microphone that picks up the voice of the person outside the room to convey the voice of the purchaser to the seller, and a receiving voice that amplifies the voice input from the receiving microphone. An amplifier and an indoor speaker that outputs the voice amplified by the receiver amplifier are provided, and a microphone that picks up the voice of the person in the room to convey the voice of the seller to the purchaser, and the voice that is input from the microphone A transmission amplifier to be amplified and an outdoor speaker for outputting the sound amplified by the transmission amplifier are provided (see Patent Document 1).

しかしながら、図2のような受話側及び送話側の音声増幅系統を有する通話装置においては、受話側(購入者)と送話側(販売者)の音声が同時に拡声されたときに互いに聞き取りにくい状態になりやすく、また室内(室外)スピーカの音声が送話(受話)マイクの方に音響的に回り込みやすい構造のため、たびたびハウリング現象が発生して、互いの音声を明瞭に聞き取りにくい状態となることがある。   However, in the communication apparatus having the receiving side and transmitting side voice amplification systems as shown in FIG. 2, it is difficult to hear each other when the receiving side (purchaser) and transmitting side (seller) voices are simultaneously amplified. And the sound of the indoor (outdoor) speaker is likely to circulate acoustically toward the transmitting (receiving) microphone, so that a howling phenomenon often occurs, making it difficult to hear each other clearly. May be.

そこで、このような不具合を避けるために、図3に示すように送話側及び受話側の音声増幅系統のそれぞれに送話時(受話時)の送話(受話)音声を検知する音声検知回路を設け、送話時は送話音声を検知して受話アンプの出力をOFFにし、受話時には受話音声を検知して送話アンプの出力をOFFにする方法が提案されている。この方法は送話側または受話側のいずれかからの音声に基づいた優先制御機能を有し、音響的な入出力の回り込みが起こらない点で優れているが、送話または受話のマイクのいずれかに音や声が入り続けると他方の側のアンプの出力は連続的にOFFになり応答ができなくなって通話が不能になる。特に切符購入者はこの装置の優先制御機能を認識していないので、このような通話不能状態を無意識のうちに生じさせてしまうことが多く、依然問題が残ったままである。   Therefore, in order to avoid such a problem, as shown in FIG. 3, a voice detection circuit for detecting a transmitted (received) voice at the time of transmission (received) to each of the voice amplification systems on the transmission side and the reception side. There has been proposed a method of detecting the transmitted voice and turning off the output of the reception amplifier during transmission, and detecting the received voice and turning off the output of the transmission amplifier during reception. This method has a priority control function based on the sound from either the sending side or the receiving side, and is excellent in that no acoustic I / O wraparound occurs. If the voice or voice continues to enter, the output of the amplifier on the other side is continuously turned off, making it impossible to respond and making a call impossible. In particular, since the ticket purchaser does not recognize the priority control function of this device, it often causes such a call impossible state to occur unintentionally, and the problem still remains.

この問題の対応策として、図4に示すように送話側(販売者側)にだけ送話時の送話音声を検知する音声検知回路を設け、非送話時は継続受話しているが、送話時だけ送話音声を検知して受話アンプの出力をOFFにする方法がある。この方法は送話側のみに優先制御機能を有しているため、優先機能を認識している販売者により円滑に使用できると考えられるが、送話者(販売者)が送話していないときに送話者の声以外に室内スピーカから出力する受話音(購入者の声や周辺の室外騒音)を送話アンプが送話音声として検知して受話中にもかかわらず受話アンプの出力をOFFにしてしまうことがあり、やはり通話不能になりうるという問題が残ったままである。   As a countermeasure against this problem, as shown in FIG. 4, a voice detection circuit for detecting a voice to be transmitted at the time of transmission is provided only on the transmission side (seller side), and continuous reception is performed at the time of non-transmission. There is a method of detecting the transmission voice only during transmission and turning off the output of the reception amplifier. Since this method has a priority control function only on the sending side, it is considered that it can be used smoothly by a seller who recognizes the priority function, but when the sender (seller) is not sending a voice. In addition to the voice of the speaker, the receiver amplifier detects the reception sound (buyer's voice and the surrounding outdoor noise) output from the indoor speaker as the transmitter voice, and turns off the receiver amplifier output even when the receiver is receiving the voice. The problem still remains that it may become impossible to talk.

この問題の対策として、通話不能の主な原因である「室内スピーカから出力する受話音を送話アンプが検知すること」を防ぐために、図5に示すように送話アンプと受話アンプに入る音声入力に対して互いに異なる範囲の通過周波数帯域を有するフィルタを設ける方法がある。例えば人間の声をアンプなどに通過させる場合に概ね300Hz〜3000Hzの範囲の周波数を通過させることが良いと言われていることから、送話アンプに対して300Hz〜1500Hzの範囲の低い周波数を通過する低域通過フィルタ(LPF)を設け、受話アンプに対して1500Hz〜3000Hzの範囲の高い周波数を通過する高域通過フィルタ(HPF)を設けると、室内(室外)スピーカの音声が送話(受話)マイクに回り込んでも互いに干渉することなく通話が可能になるものと考えられる。   As a countermeasure against this problem, in order to prevent the transmission amplifier from detecting the reception sound output from the indoor speaker, which is the main cause of the inability to talk, the voice that enters the transmission amplifier and the reception amplifier as shown in FIG. There is a method of providing filters having pass frequency bands in different ranges with respect to the input. For example, when it is said that it is good to pass a frequency in the range of 300 Hz to 3000 Hz when passing a human voice through an amplifier or the like, it passes a low frequency in the range of 300 Hz to 1500 Hz with respect to the transmission amplifier. If a low-pass filter (LPF) is provided and a high-pass filter (HPF) that passes a high frequency in the range of 1500 Hz to 3000 Hz is provided for the receiver amplifier, the sound of the indoor (outdoor) speaker is transmitted (received) ) Even if you go around the microphone, you can talk without interfering with each other.

しかしながら、隣接した二つの通過周波数の特性を電気的及び音響的に完全に区分することは困難であることは周知の通りである。また、この方法は全音声周波数帯域を通過させるアンプを使用した場合と比較しても音の干渉面で若干の改善を見る程度であって、依然として室内スピーカから出力する受話音を送話側で検知する可能性は残ったままである。さらに、この方法の最大の弱点は販売者と購入者が聞くことになる互いのスピーカから出力される相手の声の音質が全音声周波数帯域を通過させた場合と比べて、周波数の低い帯域を使用する側の音質はくぐもって明瞭度が悪く、一方周波数の高い帯域を使用する側の音質はカン高い違和感のあるものとなることである。このような音質は装置の存在を充分認識している者同士の間の通話ではあまり問題にされないが、装置の存在を全く認識しない顧客である購入者に対して出力する音は良質なものが求められるため、依然問題は残ったままである。
特開2001−24803号公報
However, as is well known, it is difficult to completely distinguish the characteristics of two adjacent passing frequencies electrically and acoustically. In addition, this method only shows a slight improvement in sound interference even when using an amplifier that passes the entire audio frequency band, and the received sound output from the indoor speaker is still transmitted on the transmitting side. The possibility to detect remains. Furthermore, the biggest weakness of this method is that the voice quality of the other party's voice output from each speaker that the seller and the purchaser hear will be lower than that in the case where the entire voice frequency band is passed. The sound quality on the side to be used is poorly clear, while the sound quality on the side to which the high frequency band is used is uncomfortable. Such sound quality is not a problem for calls between people who are fully aware of the existence of the device, but the sound output to the purchaser who is a customer who does not recognize the existence of the device is of good quality. The problem still remains because it is required.
JP 2001-24803 A

本発明はかかる従来技術の問題点を解消するために創案されたものであり、その目的は遊園地、映画館、劇場、鉄道等の切符売り場や案内場、金融機関の相談または融資窓口、または面談システム等に見られるような部屋の外側と内側を仕切る板または壁を介して部屋の外側の者と内側の者の通話をスムーズに行うことができる通話装置を提供することにある。   The present invention was devised in order to solve the problems of the prior art, and the purpose thereof is an amusement park, a movie theater, a theater, a ticket office such as a railway, an information center, a financial institution consultation or a loan window, or It is an object of the present invention to provide a communication device capable of smoothly performing a call between a person outside and inside a room through a plate or wall that partitions the outside and inside of the room as seen in an interview system or the like.

本発明者はかかる目的を達成するために部屋の外側の者に対して出力される音声の音質を明瞭なものに保ちながら、送話マイクへの不必要な音声の入力を防止するように制御できる通話装置について鋭意検討した結果、送話マイクと送話アンプを結ぶラインから分離して、人が発する声の基本周波数が占める帯域を認識する周波数を通過する帯域通過フィルタ(BPF)と、それを通過した音声を検知する音声検知回路を設け、この回路が音声を検知したときに受話側の音声増幅系統、例えば受話アンプの出力を減衰するかまたはOFFにすることによって、本発明の目的を達成できることを見出し、本発明の完成に至った。   In order to achieve the above object, the present inventor performs control so as to prevent unnecessary input of sound into the transmission microphone while keeping the sound quality of the sound output to the person outside the room clear. As a result of earnestly examining a communication device that can be used, a band pass filter (BPF) that passes through a frequency that recognizes a band occupied by a fundamental frequency of a voice uttered by a person separated from a line connecting a transmission microphone and a transmission amplifier, and An object of the present invention is to provide a voice detection circuit for detecting the voice that has passed through, and to attenuate or turn off the output of the voice amplification system on the receiver side, for example, the receiver amplifier when this circuit detects the voice. The inventors have found that this can be achieved, and have completed the present invention.

即ち、本発明は仕切り板または壁を介して部屋の外側の者と内側の者が通話を行うことができる通話装置であって、受話側の音声増幅系統として部屋の外側の者の音声を拾う受話マイクと、受話マイクから入力された音声を増幅する受話アンプと、受話アンプで増幅された音声を出力する室内スピーカとを具備し、送話側の音声増幅系統として部屋の内側の者の音声を拾う送話マイクと、送話マイクから入力された音声を増幅する送話アンプと、送話アンプで増幅された音声を出力する室外スピーカとを具備するものにおいて、送話マイクと送話アンプを結ぶラインから分離して、人が発する声の基本周波数が占める帯域を認識する周波数を通過する帯域通過フィルタ(BPF)と、それを通過した音声を検知する音声検知回路を設け、この回路が音声を検知したときに受話側の音声増幅系統の出力を減衰するかまたはOFFにすることを特徴とする通話装置である。   That is, the present invention is a communication device that allows a person outside and inside a room to talk via a partition plate or a wall, and picks up the voice of the person outside the room as a voice amplification system on the receiving side. A speech microphone, a reception amplifier that amplifies the voice input from the reception microphone, and an indoor speaker that outputs the voice amplified by the reception amplifier, and the voice of a person inside the room as a voice amplification system on the transmission side A microphone for transmitting a voice, a transmitter amplifier for amplifying the voice input from the microphone, and an outdoor speaker for outputting the voice amplified by the transmitter amplifier. A band-pass filter (BPF) that passes a frequency that recognizes a band occupied by a fundamental frequency of a voice uttered by a person and a voice detection circuit that detects a voice that has passed through the line is provided. Road is communication device, characterized in that the or OFF to attenuate the output of the audio amplification system of the receiving side when it detects sound.

本発明の通話装置の好ましい態様では、受話マイクと受話アンプを結ぶラインに前記帯域通過フィルタ(BPF)を通過する周波数より高い周波数を通過する高域通過フィルタ(HPF)を設け、例えば帯域通過フィルタ(BPF)を通過する周波数を90Hz〜400Hzとし、高域通過フィルタ(HPF)を通過する周波数を400Hzより高くする。また、本発明の通話装置の好ましい態様では、送話マイクが圧力傾度マイクであり、室内スピーカからの音声の出力方向に対して実質的に感度がないように配置される。   In a preferred aspect of the communication device of the present invention, a high pass filter (HPF) that passes a frequency higher than a frequency that passes through the band pass filter (BPF) is provided on a line connecting the receiving microphone and the receiving amplifier. The frequency that passes through (BPF) is 90 Hz to 400 Hz, and the frequency that passes through the high-pass filter (HPF) is higher than 400 Hz. Moreover, in the preferable aspect of the communication device of the present invention, the transmission microphone is a pressure gradient microphone, and is arranged so as not to be substantially sensitive to the output direction of the sound from the indoor speaker.

通話装置を設置した遊園地の切符売り場の概略図を示す。A schematic diagram of an amusement park ticket office where a communication device is installed is shown. 基本的な通話装置の主要構成図を示す。The main block diagram of a basic telephone apparatus is shown. 送話時および受話時において相互に優先制御が働く通話装置の主要構成図を示す。The main block diagram of the telephone apparatus with which priority control mutually works at the time of transmission and reception is shown. 送話時のみ優先制御が働く通話装置の主要構成図を示す。The main block diagram of the communication apparatus with which priority control works only at the time of transmission is shown. 送話側および受話側において互いに異なる周波数帯域を使用する通話装置の主要構成図を示す。The main block diagram of the telephone apparatus which uses a mutually different frequency band on the transmitting side and the receiving side is shown. 本発明による通話装置の主要構成図を示す。The main block diagram of the communication apparatus by this invention is shown. 圧力傾度マイクの球面波効果の一例を示す。An example of the spherical wave effect of a pressure gradient microphone is shown. 圧力傾度マイクと室内スピーカの配置の一例を示す。An example of arrangement | positioning of a pressure gradient microphone and an indoor speaker is shown.

本発明の通話装置の実施態様について以下具体的に説明するが、本発明はその目的を逸脱しない限りこれらの説明に制限されるものではない。   Embodiments of the communication device of the present invention will be specifically described below, but the present invention is not limited to these descriptions unless departing from the object.

本発明の通話装置は、まず第一に図6に示すように送話マイクと送話アンプを結ぶラインから分離して、人が発する声の基本周波数が占める帯域を認識する周波数を通過する周波数帯域フィルタ(BPF)と、そのフィルタを通過した音声を検知する音声検知回路を具備することを特徴とする。この音声検知回路は送話者の音声を検知したときに受話側の音声増幅系統、例えば受話アンプの出力を減衰するかまたはOFFにするように機能する。   The communication device of the present invention firstly separates from the line connecting the transmission microphone and the transmission amplifier as shown in FIG. 6 and passes the frequency for recognizing the band occupied by the fundamental frequency of the voice uttered by a person. A band filter (BPF) and a sound detection circuit that detects sound that has passed through the filter are provided. This voice detection circuit functions to attenuate or turn off the output of the voice amplification system on the receiving side, for example, the receiving amplifier, when the voice of the sender is detected.

この送話アンプは、音声信号が帯域通過フィルタ(BPF)を経由してから音声検知回路に入力される音声検知系統とは別に、帯域通過フィルタ(BPF)を経由せずに音声信号がそのまま増幅される音声増幅系統を有するため、送話側(販売側)の音声は何らフィルタで劣化されることなく受話側(購入者)に明瞭に伝えることができる。従って、従来の図5の装置のような欠点がなく、受話側(購入者)はこの装置の制御方法を全く認識しなくても送話側の音声を明瞭に聞きとることができ、送話側との通話において不都合が生じることがない。   This transmission amplifier amplifies the voice signal as it is without passing through the band pass filter (BPF) separately from the voice detection system in which the voice signal is input to the voice detection circuit after passing through the band pass filter (BPF). Therefore, the voice on the transmission side (sales side) can be clearly transmitted to the reception side (purchaser) without being deteriorated by any filter. Therefore, there is no shortcoming as in the conventional apparatus of FIG. 5, and the receiver (purchaser) can clearly hear the voice of the transmitter without having to recognize the control method of this apparatus at all. There will be no inconvenience when talking to the other party.

また、この音声検知系統は音声検知回路に入力される前の音声のフィルタとして、人の送話音声のみを検知し、それ以外の周辺の雑音を検知しないように特定の周波数のみを通過する帯域通過フィルタ(BPF)を設けているので、販売者の送話音声のみに正確に反応し、送話音声以外の音によって受話アンプの出力を不必要に減衰したりまたはOFFにすることがない。このフィルタは人が発する声の基本周波数(声帯の振動を音源として生ずる有声音などの持続部ではほぼ相似的な波の繰返しがみられ、その繰返しの周波数を一般に基本周波数と呼ぶ)、特に男性の声の90Hzぐらいから女性や子供の声の400Hzぐらいまでに着目し、前述の声の基本周波数が占める帯域と他の周波帯域(物音など)を識別するようになっており、送話音声と周辺の物音を識別する機能が格段に高くなるように通過周波数が選択される。ここで用いられる帯域通過フィルタ(BPF)を通過する周波数としては90Hz〜400Hzの範囲であることが好ましい。   In addition, this voice detection system is a band that passes only a specific frequency so as not to detect other surrounding noise as a filter of the voice before being input to the voice detection circuit, only detecting a person's transmitted voice. Since the pass filter (BPF) is provided, it responds accurately only to the transmission voice of the seller, and the output of the reception amplifier is not unnecessarily attenuated or turned off by a sound other than the transmission voice. This filter uses the fundamental frequency of human voices (similar repetition of waves is observed in the continuous part of voiced sounds generated from vocal cord vibrations as a sound source, and the repetition frequency is generally called the fundamental frequency), especially men Focusing on the frequency of 90 to about 400 Hz of female and child voices, the band occupied by the fundamental frequency of the voice and other frequency bands (such as physical sounds) are identified. The pass frequency is selected so that the function of identifying surrounding object sounds is remarkably enhanced. The frequency passing through the band pass filter (BPF) used here is preferably in the range of 90 Hz to 400 Hz.

このように本発明の装置は第一の特徴により、音声検知回路による不必要な制御、及び送話側(販売者)から受話側(購入者)へ伝達する音声の品質の劣化を有効に防止することができる。   As described above, the device of the present invention effectively prevents unnecessary control by the voice detection circuit and deterioration of the quality of the voice transmitted from the transmitting side (seller) to the receiving side (purchaser) by the first feature. can do.

また、本発明の通話装置は、第一の特徴を有効に機能させ、室内スピーカから送話マイクへの音声の回り込みによる影響をなくすために、第二の特徴として受話マイクと受話アンプを結ぶラインにおいて第一の特徴で設けた帯域通過フィルタ(BPF)の通過周波数より高い周波数を通過する高域通過フィルタ(HPF)を設けることができる。この高域通過フィルタ(HPF)は送話音声と周辺の物音(特に室内スピーカから出る音声)を識別するために受話アンプに送話側が持つ音声検知回路の通過周波数(例えば90〜400Hz)を避けた通過周波数特性(例えば400Hz超)を持つことが必要である。例えば送話側の帯域通過フィルタ(BPF)より高い周波数、即ち人の発する声の基本周波数が占める帯域より高い周波数である400Hz超を通過させる高域通過フィルタ(HPF)を受話アンプに設けることにより、室内スピーカから出力する受話音声が送話側の音声検知回路の検知レベルに達しないようにすることができる。   In addition, the communication device of the present invention has a line connecting the receiving microphone and the receiving amplifier as the second feature in order to effectively function the first feature and eliminate the influence of the wraparound of sound from the indoor speaker to the transmitting microphone. The high pass filter (HPF) which passes a frequency higher than the pass frequency of the band pass filter (BPF) provided in the first feature can be provided. This high-pass filter (HPF) avoids the passing frequency (for example, 90 to 400 Hz) of the voice detection circuit on the transmitting side of the receiving amplifier in order to discriminate the transmitted voice and the surrounding sound (especially the voice coming from the indoor speaker). It is necessary to have a passing frequency characteristic (for example, more than 400 Hz). For example, by providing the receiving amplifier with a high-pass filter (HPF) that passes a frequency higher than the band-pass filter (BPF) on the transmission side, that is, a frequency higher than 400 Hz, which is higher than the band occupied by the fundamental frequency of human voice. The received voice output from the indoor speaker can be prevented from reaching the detection level of the voice detection circuit on the transmission side.

この方法では従来の図5の装置で指摘したような問題、即ち周波数の高い帯域を使用する側の音質がカン高い違和感のあるものとなるという問題が潜在的に存在するが、この音を送話側で聞く者がその不具合を認識し克服しうる側の販売者であることを前提とすれば、周波数範囲400Hz超の全音声周波数帯域を出力するこの方法は「一般に周波数範囲1000Hz〜3000Hzの通過があれば音声は約90%の明瞭度が保たれる」と言われていることも考え合わせて十分に実用に供するものである。   In this method, there is a potential problem as pointed out in the conventional apparatus of FIG. 5, that is, there is a problem that the sound quality on the side using the high frequency band becomes uncomfortable. Assuming that the listener on the talk side is the seller who can recognize and overcome the problem, this method of outputting the entire voice frequency band over the frequency range of 400 Hz is “generally in the frequency range of 1000 Hz to 3000 Hz. Considering that it is said that the speech has a clarity of about 90% if there is a passage, it is fully put into practical use.

さらに、本発明の通話装置は、第一及び第二の特徴をさらに有効に機能させ補完するために、第三の特徴として送話マイクを圧力傾度マイクとし、このマイクを室内スピーカからの音声の出力方向に対して実質的に感度がないように配置することができる。   Further, in order to make the first and second features function more effectively and complement the third aspect, the call device of the present invention is a pressure gradient microphone as a third feature, and this microphone is used for the sound from the indoor speaker. It can arrange | position so that there may be substantially no sensitivity with respect to an output direction.

マイクは音圧の変化を電気的な変化に変える音響−電気変換器であるが、大別すると音圧に比例した起電力を発生する圧力マイクと音圧の傾きに比例した起電力を発生する圧力傾度マイク(速度マイクとも言う)に分けることができる。このうち圧力傾度マイクはその動作原理から音源との距離が波長と同程度以下になるような近距離では低い周波数で感度が増大するという特性(球面波効果)を持つ。図7は圧力傾度マイクの球面波効果を示す周波数特性の一例を示す。また、圧力傾度マイクの感度の指向特性はその構造の真横方向にほとんど感度を示さない両指向性である。この圧力傾度マイクの二つの特性を送話マイクに利用することによって、送話マイクは室内スピーカからの音声を拾いにくくなるため、送話側の音声検知回路は受話音声を誤って検知することがほとんど皆無になる。   A microphone is an acoustic-electric converter that changes sound pressure changes into electrical changes, but roughly speaking, a pressure microphone that generates an electromotive force proportional to the sound pressure and an electromotive force proportional to the slope of the sound pressure are generated. It can be divided into pressure gradient microphones (also called speed microphones). Among these, the pressure gradient microphone has a characteristic (spherical wave effect) that sensitivity increases at a low frequency at a short distance such that the distance to the sound source is less than or equal to the wavelength because of its operation principle. FIG. 7 shows an example of frequency characteristics showing the spherical wave effect of the pressure gradient microphone. In addition, the directivity characteristic of the sensitivity of the pressure gradient microphone is bi-directional with little sensitivity in the lateral direction of the structure. By using the two characteristics of this pressure gradient microphone for the transmitting microphone, the transmitting microphone becomes difficult to pick up the sound from the indoor speaker, so the voice detection circuit on the transmitting side may detect the received voice by mistake. Almost nothing.

圧力傾度マイクの球面波効果は本発明の通話装置の第一の特徴を補完するために利用される。圧力傾度マイクを送話マイクとして使用するとき、送話者は送話マイクに口を近づけて使用するので、充分に音声の波長と同程度以下になるような距離となり、音声検知回路の系統に入力しようとする声の低い周波数帯域の感度が増大されて、声の基本周波数帯域(例えば約90Hz〜約400Hz)を通過させるフィルタの効果を高め、その結果送話音の音声検知機能を高めることができる。一方周辺から来る他の声や物音はそれに比べて送話マイクまでの距離が離れていることから、それらの低い周波数帯域の感度が増大されることもなく、むしろ離れるほど低い周波数の感度は低下するので、送話音として検知する可能性も低下する。これにより、送話音声と周辺から来る他の声や物音との識別能力をさらに向上させることができる。   The spherical wave effect of the pressure gradient microphone is used to complement the first feature of the communication device of the present invention. When a pressure gradient microphone is used as a microphone, the speaker is used with the mouth close to the microphone, so the distance is sufficiently below the wavelength of the voice, and it is used in the voice detection circuit system. The sensitivity of the low frequency band of the voice to be input is increased to enhance the effect of the filter that passes the basic frequency band of the voice (for example, about 90 Hz to about 400 Hz), and as a result, the voice detection function of the transmitted sound is enhanced. Can do. On the other hand, other voices and sounds coming from the surroundings are far away from the microphone, so the sensitivity of those low frequency bands is not increased. Therefore, the possibility of detecting it as a transmitted sound is also reduced. As a result, the ability to distinguish between the transmitted voice and other voices and sounds coming from the surroundings can be further improved.

また、圧力傾度マイクの両指向性は本発明の通話装置の第二の特徴を補完するために利用される。この場合圧力傾度マイクを送話マイクとして使用するとき、周辺の声の中でも最も影響の可能性が高い室内スピーカから出る受話音声による不要な音声検知を防止するために、圧力傾度マイクが感度をほぼ示さなくなる角度(構造上の真横方向)の位置に室内スピーカが配置されるように構成する。図8に通話装置における圧力傾度マイクと室内スピーカの配置例を示す。このように圧力傾度マイクを配置することにより、送話側の音声検知回路は室内スピーカからの受話音声を検知することがさらになくなる。   Moreover, the bidirectionality of the pressure gradient microphone is used to supplement the second feature of the communication device of the present invention. In this case, when using a pressure gradient microphone as a transmission microphone, the pressure gradient microphone has almost no sensitivity in order to prevent unnecessary voice detection from incoming voices coming from indoor speakers, which are most likely to be affected by the surrounding voice. The indoor speaker is arranged at a position at an angle not shown (in the lateral direction on the structure). FIG. 8 shows an arrangement example of the pressure gradient microphone and the indoor speaker in the communication device. By arranging the pressure gradient microphone in this manner, the voice detection circuit on the transmission side further prevents detection of the received voice from the indoor speaker.

本発明の通話装置は部屋の外側と内側を仕切る板又は壁(透明であっても不透明であってもよいし完全に内外が隔離されていてもよい)を介して部屋の外側の者と内側の者が通話を行う状況で使用されるが、特に部屋の外側の者がこの装置の制御を認識しない購入者又は相談者であり、一方部屋の内側の者がこの装置の制御を認識しうる販売者又は対応者であるような状況において設置すると特に効果的である。例えば遊園地、映画館、劇場、鉄道等の切符売り場や案内場、銀行や金融会社の相談または融資業務を行なう場所、または面談システムに好ましく使用することができる。   The communication device of the present invention is configured so that the outside and inside of the room can be separated from each other via a plate or wall (transparent or opaque or completely separated from the outside). Used by people who are making calls, especially those who are outside the room who are buyers or consultants who are not aware of the control of this device, while those inside the room may be aware of the control of this device It is particularly effective if it is installed in a situation where it is a seller or a responder. For example, it can be preferably used in amusement parks, movie theaters, theaters, railway ticket offices and information centers, places where banks and financial companies provide consultation or financing, or interview systems.

本発明の通話装置は上述のように構成されているので、以下のような効果を奏することができる。
(1)送話マイクから出力された音声信号をそのまま制御信号として使用するのではなく、主に人の発する声を構成する周波数帯域を通過するフィルタを通過させた後の信号を制御信号として使用しているので、送話者(販売者)の音声以外の音の影響による誤動作が少ない。また、制御用の信号と拡声用の信号は別系統にしているため、拡声用の音声信号はフィルタを通過せずに通常の音声増幅が可能である。
Since the communication device of the present invention is configured as described above, the following effects can be obtained.
(1) The audio signal output from the transmission microphone is not used as a control signal as it is, but the signal after passing through a filter that passes through a frequency band that mainly constitutes human voice is used as a control signal. Therefore, there are few malfunctions due to the influence of sound other than the voice of the sender (seller). In addition, since the control signal and the loudspeaker signal are provided in different systems, the loudspeaker sound signal can be amplified normally without passing through the filter.

(2)受話者(購入者)が話した声は受話アンプで増幅され室内スピーカで拡声されるが、その際その拡声音が送話マイクへ回り込んだとき、送話アンプの制御機能により受話アンプの出力を減衰したりまたはOFFにしてしまうという不具合の発生は上述の方法で抑制する効果があるが、この不具合の発生をより確実に抑制するために送話アンプ側の帯域通過フィルタ(BPF)の帯域を外した帯域の高域通過フィルタ(HPF)を受話アンプに挿入し、受話音声はこの高域通過フィルタ(HPF)を通過してから拡声されるように構成しているので、高域通過フィルタ(HPF)通過後の音声信号は、帯域通過フィルタ(BPF)の周波数帯域に反応するように設計された制御回路に対して反応し難いため、回りこみによる誤動作の発生を一層有効に抑制することができる。   (2) The voice spoken by the receiver (purchaser) is amplified by the receiver amplifier and amplified by the indoor speaker. At that time, when the amplified sound circulates to the transmitter microphone, the voice is received by the control function of the transmitter amplifier. The occurrence of the problem of attenuating or turning off the output of the amplifier is effective to suppress by the above-described method. However, in order to more reliably suppress the occurrence of this problem, the bandpass filter (BPF) on the transmission amplifier side is used. ), A high-pass filter (HPF) in a band other than the band of (1) is inserted into the receiving amplifier, and the received voice is amplified after passing through the high-pass filter (HPF). Since the audio signal after passing through the pass-pass filter (HPF) is difficult to react to the control circuit designed to respond to the frequency band of the band-pass filter (BPF), malfunction occurs due to wraparound. It can be more effectively suppressed.

(3)送話マイクに圧力傾度マイクを使用しているので、このマイクによる球面波効果と両指向性による恩恵が得られる。即ち、まず、送話者(販売者)が同マイクの近くで話した声は近距離では低い周波数で感度が増大する球面波効果により、特性的に帯域通過フィルタ(BPF)の周波数帯域に反応しやすくなる。また、同マイクの感度の指向特性は、構造の真横方向にほとんど感度を示さない両指向性であるという特性により、受話スピーカから出力される受話音声の送話マイクへの回り込みの影響が少なくなる。結果として、販売者の声を制御すべきときにはその反応はより向上し、制御すべきでないときには、送話マイクへの回りこみによる誤動作の発生がより抑制されることになり、通話装置の実用性をさらに高めることができる。 (3) Since the pressure gradient microphone is used as the transmission microphone, the spherical wave effect and the bi-directionality by this microphone can be obtained. That is, first, the voice spoken by the transmitter (seller) near the microphone reacts characteristically to the frequency band of the band pass filter (BPF) due to the spherical wave effect in which the sensitivity increases at a low frequency at a short distance. It becomes easy to do. In addition, the directivity characteristic of the sensitivity of the microphone is bi-directional with little sensitivity in the lateral direction of the structure, so that the influence of the reception voice output from the reception speaker on the transmission microphone is reduced. . As a result, when the seller's voice is to be controlled, the response is improved, and when it is not to be controlled, the occurrence of malfunction due to sneaking into the transmission microphone is further suppressed. Can be further enhanced.

【0004】
話アンプで増幅された音声を出力する室内スピーカとを具備し、送話側の音声増幅系統として部屋の内側の者の音声を拾う送話マイクと、送話マイクから入力された音声を増幅する送話アンプと、送話アンプで増幅された音声を出力する室外スピーカとを具備するものにおいて、送話マイクと送話アンプを結ぶラインから分離して、人が発する声の基本周波数が占める帯域を認識する周波数が通過する帯域通過フィルタ(BPF)と、それを通過した音声を検知する音声検知回路を設け、この回路が音声を検知したときに受話側の音声増幅系統の出力を減衰するかまたはOFFにすること、及び受話マイクと受話アンプを結ぶラインに前記帯域通過フィルタ(BPF)を通過する周波数より高い周波数が通過する高域通過フィルタ(HPF)を設けたことを特徴とする通話装置である。
[0012]
本発明の通話装置の好ましい態様では、例えば帯域通過フィルタ(BPF)を通過する周波数を90Hz〜400Hzとし、高域通過フィルタ(HPF)を通過する周波数を400Hzより高くする。また、本発明の通話装置の好ましい態様では、送話マイクが圧力傾度マイクであり、室内スピーカからの音声の出力方向に対して実質的に感度がないように配置される。
[図面の簡単な説明]
[0013]
[図1]
通話装置を設置した遊園地の切符売り場の概略図を示す。
[図2]
基本的な通話装置の主要構成図を示す。
[図3]
送話時および受話時において相互に優先制御が働く通話装置の主要構成図を示す。
[図4]
送話時のみ優先制御が働く通話装置の主要構成図を示す。
[図5]
送話側および受話側において互いに異なる周波数帯域を使用する通話装置の主要構成図を示す。
[図6]
本発明による通話装置の主要構成図を示す。
[図7]
圧力傾度マイクの球面波効果の一例を示す。
[図8]
圧力傾度マイクと室内スピーカの配置の一例を示す。
[発明を実施するための最良の形態]
[0014]
本発明の通話装置の実施態様について以下具体的に説明するが、本発明はその目的を逸脱しない限りこれらの説明に制限されるものではない。
[0004]
It has an indoor speaker that outputs the voice amplified by the talk amplifier, and as a voice amplification system on the sending side, it picks up the voice of the person inside the room and amplifies the voice inputted from the sending microphone A band that occupies the fundamental frequency of a voice uttered by a person separated from the line connecting the transmission microphone and the transmission amplifier, with a transmission amplifier and an outdoor speaker that outputs the sound amplified by the transmission amplifier A band-pass filter (BPF) through which the frequency for recognizing the signal passes and a voice detection circuit for detecting the voice that passes through the filter, and whether this circuit attenuates the output of the voice amplification system on the receiving side when the voice is detected Or a high-pass filter (HPF) in which a higher frequency than a frequency passing through the band-pass filter (BPF) passes through a line connecting the receiving microphone and the receiving amplifier. By providing a communication apparatus characterized by.
[0012]
In a preferred aspect of the speech device of the present invention, for example, the frequency passing through the band pass filter (BPF) is 90 Hz to 400 Hz, and the frequency passing through the high pass filter (HPF) is higher than 400 Hz. Moreover, in the preferable aspect of the communication device of the present invention, the transmission microphone is a pressure gradient microphone, and is arranged so as not to be substantially sensitive to the output direction of the sound from the indoor speaker.
[Brief description of drawings]
[0013]
[Figure 1]
A schematic diagram of an amusement park ticket office where a communication device is installed is shown.
[Figure 2]
The main block diagram of a basic telephone apparatus is shown.
[Fig. 3]
The main block diagram of the telephone apparatus with which priority control mutually works at the time of transmission and reception is shown.
[Fig. 4]
The main block diagram of the communication apparatus with which priority control works only at the time of transmission is shown.
[Fig. 5]
The main block diagram of the telephone apparatus which uses a mutually different frequency band on the transmitting side and the receiving side is shown.
[Fig. 6]
The main block diagram of the communication apparatus by this invention is shown.
[Fig. 7]
An example of the spherical wave effect of a pressure gradient microphone is shown.
[Fig. 8]
An example of arrangement | positioning of a pressure gradient microphone and an indoor speaker is shown.
[Best Mode for Carrying Out the Invention]
[0014]
Embodiments of the communication device of the present invention will be specifically described below, but the present invention is not limited to these descriptions unless departing from the object.

Claims (5)

仕切り板または壁を介して部屋の外側の者と内側の者が通話を行うことができる通話装置であって、受話側の音声増幅系統として部屋の外側の者の音声を拾う受話マイクと、受話マイクから入力された音声を増幅する受話アンプと、受話アンプで増幅された音声を出力する室内スピーカとを具備し、送話側の音声増幅系統として部屋の内側の者の音声を拾う送話マイクと、送話マイクから入力された音声を増幅する送話アンプと、送話アンプで増幅された音声を出力する室外スピーカとを具備するものにおいて、送話マイクと送話アンプを結ぶラインから分離して、人が発する声の基本周波数が占める帯域を認識する周波数を通過する帯域通過フィルタ(BPF)と、それを通過した音声を検知する音声検知回路を設け、この回路が音声を検知したときに受話側の音声増幅系統の出力を減衰するかまたはOFFにすることを特徴とする通話装置。   A communication device that enables a person outside and inside the room to talk via a partition plate or wall, and a receiving microphone that picks up the voice of the person outside the room as a receiving side audio amplification system, and receiving A microphone that picks up the voice of a person inside the room as a voice amplification system on the transmission side, including a reception amplifier that amplifies the voice input from the microphone and an indoor speaker that outputs the voice amplified by the reception amplifier And a speaker amplifier that amplifies the voice input from the microphone, and an outdoor speaker that outputs the voice amplified by the microphone, separated from the line connecting the microphone and the voice amplifier Then, a band pass filter (BPF) that passes the frequency that recognizes the band occupied by the fundamental frequency of the voice uttered by a person and a voice detection circuit that detects the voice that passes through the filter are provided, and this circuit detects the voice. Communication device, characterized in that to or OFF to attenuate the output of the audio amplification system of the receiving side when. 受話マイクと受話アンプを結ぶラインに前記帯域通過フィルタ(BPF)を通過する周波数より高い周波数を通過する高域通過フィルタ(HPF)を設けたことを特徴とする請求項1に記載の通話装置。   The telephone apparatus according to claim 1, wherein a high pass filter (HPF) that passes a frequency higher than a frequency that passes through the band pass filter (BPF) is provided on a line connecting the receiving microphone and the receiving amplifier. 帯域通過フィルタ(BPF)を通過する周波数が90Hz〜400Hzであることを特徴とする請求項1または2に記載の通話装置。   The communication device according to claim 1 or 2, wherein a frequency passing through the band pass filter (BPF) is 90 Hz to 400 Hz. 高域通過フィルタ(HPF)を通過する周波数が400Hzより高いことを特徴とする請求項2または3に記載の通話装置。   The communication device according to claim 2 or 3, wherein a frequency that passes through the high-pass filter (HPF) is higher than 400 Hz. 送話マイクが圧力傾度マイクであり、室内スピーカからの音声の出力方向に対して実質的に感度がないように配置されていることを特徴とする請求項1〜4のいずれかに記載の通話装置。   The telephone call according to any one of claims 1 to 4, wherein the transmission microphone is a pressure gradient microphone and is arranged so as to be substantially insensitive to the output direction of the sound from the indoor speaker. apparatus.
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