JP3599794B6 - Cordless telephone equipment - Google Patents

Description

[0001]
[Industrial application fields]
The present invention relates to a cordless telephone apparatus having a voice recognition circuit.
[0002]
[Prior art]
In recent years, for example, as shown in Japanese Patent Publication No. 3-31275, various devices have been developed that perform a predetermined operation by voice recognition. As described above, a device has been developed that sets a call state in response to an input of a predetermined voice when an incoming call is received from an outside line.
[0003]
By the way, as is well known, a cordless telephone device is composed of a parent device connected to a telephone line and a child device wirelessly connected to the parent device.
[0004]
Accordingly, it is desirable that the cordless telephone apparatus is provided with a voice recognition circuit in both the parent device and the child device.
[0005]
However, since the voice recognition circuit is expensive, it is generally provided only on the parent device side and performs voice recognition by voice input on the parent device side. For this reason, an automatic voice response to an incoming call cannot be made from the handset side.
[0006]
Therefore, the slave unit is equipped with a voice detection circuit that detects voices of a predetermined level or higher (generally the user responds “high”) during the ringing suspension period for incoming calls. What you do is devised.
[0007]
[Problems to be solved by the invention]
However, since the voice detection circuit merely detects the voice level and does not perform voice recognition, it has not been possible to command voice, for example, an operation such as “transfer” during a call of the slave unit.
[0008]
[Means for Solving the Problems]
The cordless telephone device according to the present invention is made in view of the above points, and includes a parent device connected to a telephone line and a child device wirelessly connected to the parent device. A voice recognition circuit; and a control circuit that performs predetermined processing based on a recognition result of the voice recognition circuit when an incoming call is received. The slave unit includes a slave unit transmission / reception circuit, a microphone, and voice input from the microphone. Is provided with a detection circuit for detecting whether or not the voice is a predetermined level and a control circuit for requesting connection of a line to the master unit based on a detection result of the detection circuit. When the control circuit determines that the detection circuit has detected a predetermined level of voice input from the microphone at the time of an incoming call, the control circuit wirelessly connects the master unit and the slave unit by controlling the slave unit transmission / reception circuit, The handset is connected wirelessly Then, the control circuit of the master unit outputs the voice signal input from the microphone of the slave unit and transmitted from the slave unit to the line via the transmission / reception circuit of the master unit and gives it to the voice recognition circuit The voice input from the microphone of the slave unit is recognized by the voice recognition circuit of the master unit.
[0009]
[Action]
Since the present invention is configured as described above, on the handset side, the voice response to the incoming call can be performed by the voice detection circuit, and the predetermined operation command during the call is performed by the voice recognition circuit of the master unit. be able to.
[0010]
【Example】
Embodiments of the present invention will be described with reference to the drawings. FIG. 1 is a block diagram of a cordless telephone apparatus according to the present invention. (1) is a master unit connected to a telephone line (L), and (2A), (2B) and (2C) are wirelessly connected to the master unit. It is a handset.
[0011]
FIG. 2 is a block diagram of the base unit (1) of the cordless telephone apparatus of the present invention. (3) is a network circuit connected to the telephone line (L), and a connection circuit and a holding circuit for the telephone line (L). Also included. (4) is an incoming detection circuit for detecting an incoming call from an external line, (5) is a handsfree speaker connected to the amplifier (6), and (7) is a handsfree microphone connected to the amplifier (8). It is. (9) is a receiving circuit that receives and demodulates a signal from the slave unit (2A) and the like, and (10) is a transmission circuit that transmits a signal to the slave unit (2A) and the like. (11) is a changeover switch for switching the output of the receiving circuit (9) and the output of the amplifier (8) of the microphone (7), and (12) is a voice recognition circuit for inputting the output of the changeover switch (11). The words “high”, “master unit”, “slave unit 1”, “slave unit 2”, and “slave unit 3” are set to be recognized, and a recognition result corresponding to each is output. (13) is a receiving circuit (9), a switching circuit for connecting any one of the group of the transmitting circuit (10) and the speaker (5) and the microphone (7) to the network circuit (3), and (14) is an incoming call notification. The bell (15) is a key circuit including a hands-free key (16), an end call key (17), a numeric keypad (18), and a hold key (19). (20) is a control circuit composed of a microprocessor for controlling each circuit of the master unit (1).
[0012]
FIG. 3 shows a block diagram of the slave unit (2A). (21) is a reception circuit that receives a signal from the master unit (1), and (22) is an amplifier (23 that receives a demodulated signal from the reception circuit (21). ) Through the speaker. (24) is a transmission circuit that modulates the signal input from the microphone (26) via the amplifier (25) and transmits it to the main unit (1), and also modulates a control signal from the control circuit (34) described later. Send to the main unit (1). (27) is a call notification bell, and (28) is a key circuit including a hands-free key (29), an end key (30), a numeric keypad (31), and a hold key (32). (33) is a voice detection circuit for inputting the output of the microphone (26), and only the input signal level is detected unlike the voice recognition circuit (12) of the master unit (1). This is because the voice recognition circuit (12) is expensive and the cost is reduced. (34) is a control circuit which is composed of a microprocessor and controls each circuit of the slave unit (2A). The control circuit (34) receives the detection output of the sound detection circuit (33) during the ringing pause period when an incoming call is received. That is, the slave unit (2A) detects whether or not the input voice level exceeds a predetermined value by the user's voice such as “high” during the ringing suspension period at the time of the incoming call.
[0013]
In addition, about the subunit | mobile_unit (2B) (2C), it is the same structure as a subunit | mobile_unit (2A), and description is abbreviate | omitted here.
[0014]
4 and 5 are flowcharts of a program related to incoming call processing written in the control circuits (20) and (34) of the master unit (1) and slave unit (2A) of the present invention, and the operation will be described based on this. To do.
[0015]
In the initial state, the changeover switch (11) of the parent device (1) is set to the amplifier (8) side of the microphone (7).
[0016]
Thus, the control circuit (20) of the master unit (1) monitors whether the incoming call detection circuit (4) has detected an incoming call (S1). When an incoming call is detected, the control circuit (20) of the parent device (1) transmits an incoming call detection signal to the child devices (2A) (2B) (2C) and drives the bell (14) (S2, 3). . The control circuit (34) of the slave (2A) that has received this incoming call detection signal drives the bell (27) (S36, 37). At this time, the bell (27) is driven at the timing of ringing for 2 seconds and resting for 1 second.
[0017]
Now, while driving the bells (14) and (27), when the word "high" is recognized on the base unit (1) side, the control circuit (20) closes the telephone line (L) and closes the bell ( 14) is stopped and a call signal is transmitted to the slave units (2A), (2B) and (2C), and the switching circuit (11) is switched to the hands-free speaker (5) and microphone (7) side. The telephone line (L) is connected via the network circuit (3) (S4, 6-9). In the slave unit (2A), when the call signal from the master unit (1) is received, the bell (27) is stopped to enter a standby state, and the process proceeds to another process (S50 to 52). Of course, the same processing as that of the slave unit (2A) is performed in the other slave units (2B) and (2C).
[0018]
In the call mode of the master unit (1), the control circuit (20) monitors the operation of the hold key (19) and the call end key (17) (S10, 18). Here, when the operation of the hold key (19) is detected, the control circuit (20) sets the hold state (S11). At this time, the control circuit (20) monitors the voice recognition state of the voice recognition circuit (12) (S12, 14, 15). For example, when the voice of “slave unit A” is recognized, the control circuit (20) of the master unit (1) performs a transfer process to the slave unit (2A) (S12, 13). This transfer process is a process of calling the slave unit (2A) and connecting the slave unit (2A) to the telephone line (L) as is well known. When “Slave unit B” or “Slave unit C” is recognized, transfer processing is performed for each slave unit (S14, 15, 13).
[0019]
In addition, as described above, after placing the hold state by operating the hold key (19), the transfer process was performed based on the voice recognition. This is to prevent unexpected transfer to the transfer process.
[0020]
If the user operates the hold key (19) again, the control circuit (20) of the parent device (1) releases the hold and then returns to step S10 (S16, 17).
[0021]
When the end key (17) is operated and detected, the control circuit (20) opens the telephone line (L) to enter a standby state, and proceeds to another process (S18 to 20).
[0022]
The above description is for the case where the voice recognition circuit (12) recognizes “high” for an incoming call, but also when the hands-free key (16) is operated (S5), the control circuit (20). Performs the same processing as in steps S6 to S20 described above.
[0023]
Next, when the voice detection circuit (33) of the slave unit (2A) detects a predetermined level of voice in response to the incoming call, the control circuit (34) of the slave unit (2A) makes a call request to the master unit (1). A signal is transmitted (S38, 40). The control circuit (20) of the master unit (1) that has received the call request signal closes the telephone line (L) to stop the bell (14) and the switching circuit (13) to the receiving circuit (9). Switching to the transmission circuit (10) side, these are connected to the telephone line (L) via the network circuit (3) (S21-24). Then, the control circuit (20) of the master unit (1) further sets the changeover switch (11) to the reception circuit (9) side, and receives the audio signal from the slave unit (2A) sent via radio. This is given to the speech recognition circuit (12) (S25).
[0024]
In the call mode of the child device (2A), the control circuit (34) of the child device (2A) monitors the operation of the hold key (32) and the call end key (30) (S42, 47). Here, when the operation of the hold key (32) is detected, the control circuit (34) transmits a hold signal to the parent device (1) (S43). The control circuit (20) of the parent device (1) that has received the hold signal sets the hold state (S26, 27). At this time, the control circuit (20) monitors the voice recognition state of the voice recognition circuit (12) (S28). In this state, it is monitored whether or not “master unit” is recognized. If “master unit” is recognized, transfer processing of master unit (1) is performed (S29). Here, the transfer processing of the master unit (1) is, as is well known, the microphone (7) and the speaker (5) of the master unit (1) are connected to the telephone line (L) in the call state of the slave unit (2A). In this process, after the transfer is completed, the control circuit (20) of the parent device (1) transmits a transfer signal to the child device (2A). The control circuit (34) of the slave unit (2A) that has received this transfer signal enters the standby state and then proceeds to another process (S46, 49).
[0025]
When the hold key (32) of the child device (2A) is operated again and a hold signal is transmitted to the parent device (1), the control circuit (20) of the parent device (1) holds the hold. Cancel and return to step S26 (S30, 31). Even in the control circuit (34) of the slave (2A), the process returns to step S42 (S44, 45).
[0026]
Thus, when the end key (30) of the handset (2A) is operated, the control circuit (34) transmits the end signal to the handset (2A) and then shifts to another process as a standby state. (S47 to 49). Further, in the control circuit (20) of the master unit (1), when the end call signal is received, the telephone line (L) is opened and the changeover switch (11) is switched to the microphone (7) side. After entering the recognition mode (1), the process shifts to another process as a standby state (S32-35).
[0027]
In the above embodiment, the output of the receiving circuit (9) is given to the voice recognition circuit (12) in response to a call request from the child device (2A). However, when the hold signal is received from the child device (2A), The output of the receiving circuit (9) may be given to the voice recognition circuit (12) when setting the hold state.
[0028]
For incoming calls, it is conceivable that the changeover switch (11) is alternately switched at predetermined intervals and both the master unit and the slave unit respond to voice by the voice recognition circuit (12). When there are a plurality of cordless handsets, the response of any cordless handset is unknown, which is not preferable for a cordless telephone apparatus having a plurality of cordless handsets. However, in the present invention, a voice detection circuit is provided in each slave unit, and the changeover switch (11) is switched to the reception circuit (9) side after the radio line between the master unit and any one of the slave units is formed. There is an advantage that it can be applied to a cordless telephone device having a slave unit.
[0029]
【The invention's effect】
Since the present invention is configured as described above, a voice response to an incoming call can be performed by the voice detection circuit on the handset side, and a predetermined operation command during a call can be performed by voice recognition of the master unit. In addition, it is possible to perform a voice response in an incoming call and a call state with a simple configuration.
[Brief description of the drawings]
FIG. 1 is a block diagram of a cordless telephone device according to the present invention.
FIG. 2 is a block diagram of a base unit of the cordless telephone device of the present invention.
FIG. 3 is a block diagram of a handset of the cordless telephone device of the present invention.
FIG. 4 is a flowchart of a main program relating to incoming call processing written in the control circuit of the master unit of the cordless telephone apparatus of the present invention;
FIG. 5 is a flowchart of a main program relating to incoming call processing written in the control circuit of the handset of the cordless telephone device of the present invention;
[Explanation of symbols]
1 parent machine 2A child machine 2B child machine 2C child machine 12 voice recognition circuit 20 control circuit 33 voice detection circuit 34 control circuit

Claims (1)

It consists of a master unit connected to a telephone line and a slave unit wirelessly connected to the master unit,
The master unit, the master unit transceiver circuit, and a voice recognition circuit, and a control circuit for performing predetermined processing based on the recognition result of the speech recognition circuit, the provided
The slave unit includes a slave unit transmission / reception circuit, a microphone, a detection circuit that detects whether or not the voice input from the microphone is a predetermined level, and the parent unit based on a detection result of the detection circuit when an incoming call is received. And a control circuit for requesting connection of a line to the machine ,
When the control circuit of the slave unit determines that the detection circuit has detected a predetermined level of voice input from the microphone when an incoming call is received, the base unit and the slave unit are wirelessly connected by controlling the slave unit transmission / reception circuit,
When the master unit and the slave unit are wirelessly connected, the control circuit of the master unit transmits an audio signal input from the microphone of the slave unit and transmitted from the slave unit via the transmission / reception circuit of the master unit. A cordless telephone device characterized in that it is output to the line and given to the voice recognition circuit, and the voice inputted from the microphone of the slave unit is recognized by the voice recognition circuit of the master unit.

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