JP2016051958A - Communication system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To allow a voice output unit to be deleted in a master unit having an answering function.SOLUTION: A system includes a master unit (40) connected with a fixed telephone line and a slave unit capable of communicating with the master unit by radio. The master unit includes: a storage unit (37) for storing voice data related to an automatically answered telephone; an operation unit for accepting operation related to the automatically answered telephone; and a communication unit for communicating with the slave unit. The communication unit transmits the voice data in the storage unit to the slave unit when the operation unit has accepted operation. The slave unit includes a reproducing unit (4A) for reproducing voice data, and a voice output unit for outputting voice reproduced by the reproducing unit, and reproduces the voice data transmitted from the master unit by the reproducing unit.SELECTED DRAWING: Figure 4

Description

  The present invention relates to a communication system, and more particularly to a communication system in which a parent device and a child device perform cordless communication.

  As a communication system including a parent device and a child device, a telephone terminal system disclosed in Japanese Patent Application Laid-Open No. 2004-228732 is provided. In the telephone system of Patent Document 1, the message is stored together with the password in order to securely store and reproduce the recorded message. When the called party inputs the password, the recorded message is reproduced.

  Patent Document 2 (Japanese Patent Laid-Open No. 10-304051) discloses a configuration in which a voice message recorded by an absence recording function of a master unit is reproduced and output by a slave unit.

JP 2004-228732 A Japanese Patent Laid-Open No. 10-304051

  In a typical cordless telephone, an answering key and a speaker for the answering function are arranged on the base unit, and the answering function is controlled by the key operation, and sound corresponding to the operation is output from the speaker. It is normal.

  On the other hand, there has been a desire to delete the handset from the parent machine, that is, to delete the speaker for audio output in order to reduce the cost. However, since both of Patent Documents 1 and 2 described above are configured to include a handset or an audio output unit in the master unit, the request could not be met.

  Therefore, an object of the present invention is to provide a communication system capable of deleting a voice output unit in a base unit having an answering machine function.

  A communication system according to an aspect of the present invention is a communication system including a master unit connected to a fixed telephone line and at least one slave unit capable of wireless communication with the master unit.

  The base unit includes a storage unit for storing voice data related to the answering machine, an operation unit for accepting an operation related to the answering machine, and a communication unit for communicating with the slave unit. When the operation is accepted by the operation unit, the audio data in the storage unit is transmitted to the slave unit.

  The slave unit includes a reproduction unit that reproduces audio data and an audio output unit that outputs the audio reproduced by the reproduction unit. The reproduction unit reproduces audio data transmitted from the parent unit.

  Preferably, the voice data related to the answering machine includes received voice data received from the calling party via a line and guidance voice data for guidance related to the answering machine.

  Preferably, the communication unit further transmits a reproduction instruction for instructing reproduction of the audio data to the child device when transmitting the audio data.

  Preferably, when the reproduction instruction is transmitted to the child device, the parent device invalidates the acceptance of the operation by the operation unit thereafter.

Preferably, the parent device further includes an attachment portion for detachably attaching the child device.
Preferably, the communication unit transmits the audio data to the child device attached to the attachment unit.

  Preferably, the child device further includes a detection unit for detecting whether or not the child device is attached to the attachment unit, and when the attachment of the child device is detected by the detection unit, The parent device is notified of the identification information of the child device.

  Preferably, the parent device further includes a determination unit that determines whether or not the child device is present in the wireless communicable area based on the strength of the radio wave received from the child device. It is transmitted to the slave unit determined to exist by the determination unit.

  As described above, when the master unit accepts an operation related to the answering machine, the master unit transmits the voice data related to the answering machine in the storage unit to the slave unit, and the slave unit reproduces the voice data transmitted from the master unit. Play by part.

  According to the present invention, it is possible to delete the voice reproduction and voice output unit in the base unit having the answering machine function.

It is a figure which shows the external appearance of the main | base station which concerns on this Embodiment 1. FIG. It is the schematic of the subunit | mobile_unit 20 which concerns on this Embodiment 1. FIG. It is a figure which shows the external appearance of the state with which the subunit | mobile_unit 20 which concerns on this Embodiment 1 was mounted | worn with the cradle part 44 of the main | base station 40. FIG. It is a figure which shows the structure of the subunit | mobile_unit 20 and the main | base station 40 concerning this Embodiment 1. FIG. It is a figure which shows the example of the memory content of the memory | storage part 37 of the main | base station 40 of FIG. It is a figure which shows the function structure of the subunit | mobile_unit 20 which concerns on this Embodiment 1. FIG. It is a figure which shows the function structure of the main | base station 40 concerning this Embodiment 1. FIG. It is a flowchart which shows an example of the communication process of the main | base station and the subunit | mobile_unit for the answering machine which concerns on this Embodiment 1. FIG. It is a figure which shows the example of operation of the absence key 36 which concerns on this Embodiment 1. FIG. It is a flowchart which shows an example of the process for detecting the specific subunit | mobile_unit for the wireless communication which concerns on Embodiment 3 of this invention.

  Embodiments of the present invention will be described below with reference to the drawings. In the following description, the same parts and components are denoted by the same reference numerals. Their names and functions are also the same. Therefore, these descriptions will not be repeated.

[Embodiment 1]
The communication system according to the first embodiment includes a master unit connected to a fixed telephone line and at least one slave unit capable of wireless communication with the master unit.

  FIG. 1 is a diagram showing an appearance of the parent device according to the first embodiment. Referring to FIG. 1, base unit 40 includes a housing 42 that contains circuits for a communication function with a slave unit or the outside, an answering machine function, and a charging function for the slave unit. On the front surface of the housing 42, a slave unit (not shown) is detachably mounted, and a cradle portion 44 for fixing the mounted slave unit is provided. The cradle unit 44 is an example of a “mounting unit” for detachably mounting the slave unit to the master unit 40.

  The cradle unit 44 has hardware pins 45 and electrode terminals 46 for charging the attached slave unit. The hardware pin 45 is disposed at a position where the slave pin comes into contact with the housing of the slave unit 20 when the slave unit is attached to the cradle unit 44. The pin detection unit 14 (described later) of the child device 20 detects whether or not the hardware pin 45 has contacted the housing of the child device. Note that a method using a pressure sensor, a method using a touch switch, or the like can be applied to the contact detection method substituted for the hardware pin 45. Also, an answering key 36 is provided on the casing 42 of the parent device 40. The answering key 36 is an example of an “operation unit” for accepting a user operation related to the answering machine of the parent device 40.

  FIG. 2 is a schematic diagram of the handset 20 according to the first embodiment. FIG. 2A is a front view of the handset 20. FIG. 2B is a rear view of the slave unit 20 as viewed from the side opposite to the front side. FIG. 3 is a diagram showing an external appearance of the slave device 20 according to the first embodiment when the slave device 20 is mounted on the cradle unit 44 of the master device 40. 2 (A) and 2 (B), the front side of handset 20 includes an ear speaker 8A for outputting sound, a display unit 10 such as a liquid crystal display for displaying information, and a key / button. An operation unit 11 for receiving user operation contents and a microphone 9 for inputting voice are arranged. A speaker 8 </ b> B for outputting sound is disposed on the back surface of the slave unit 20. A built-in battery unit 7 corresponding to a rechargeable battery is arranged from one end in the longitudinal direction (axial direction) inside the slave unit 20.

  Referring to FIG. 3, when handset 20 is attached to cradle portion 44, earphone 8 </ b> A, speaker 8 </ b> B, display portion 10, operation portion 11, and microphone 9 are arranged in front of handset 20. Thus, the user can talk with the other party via the handset 20 in a hands-free manner.

  FIG. 4 is a diagram showing the configuration of the slave unit 20 and the master unit 40 according to the first embodiment. Referring to FIG. 4, handset 20 has a microcomputer including DECT radio unit 3 and CPU (Central Processing Unit) for connecting antenna 2 and performing radio communication according to the DECT (Digital Enhanced Cordless Telecommunications) system. The control unit 1, the audio data received via the DECT radio unit 3 and the audio signal from the microphone 9, and the storage unit 5 are provided. The storage unit 5 stores the identifier ID of the slave device 20, various data, programs, and the like. The slave unit 20 further includes a signal input / output unit 6 for inputting / outputting signals / data to / from the master unit 40 via the communication path 21, a built-in rechargeable battery unit 7, an ear speaker 8A, and a speaker 8B. Including a speaker unit 8, a microphone 9, a display unit 10, an operation unit 11, a timer 12 that measures time, an LED (Light Emitting Diode) unit 13 that is controlled to be informed of the operating state of the slave unit 20, and the above-described The pin detection unit 14 is included.

  The signal processing unit 4 includes a reproducing unit 4A for reproducing audio data. The reproduction unit 4A decodes the audio data received by the DECT radio unit 3 or the audio data given from the control unit 1, and outputs the audio signal after the decoding process to the speaker unit 8. As a result, sound is output from the speaker unit 8.

  The signal input / output unit 6 includes a power supply I / F (abbreviation of interface) 6A and a communication I / F (abbreviation of interface) 6B. The signal input / output unit 6 includes a signal terminal (not shown) connected to the electrode terminal 46 of the parent device 40 when the child device 20 is attached. When the slave unit 20 is mounted on the cradle unit 44, the communication path 21 including the signal input / output unit 6 is established.

  The subunit | mobile_unit 20 inputs a power signal and data from the main | base station 40 via the communication path 21. FIG. The power supply I / F 6 </ b> A inputs a power signal given through the communication path 21 and supplies it to the built-in battery unit 7. The built-in battery unit 7 charges the built-in battery based on the supplied power signal. The communication I / F 6B inputs data given from the parent device 40 via the communication path 21 and gives it to the control unit 1. The data output from the parent device 40 to the child device 20 via the communication path 21 includes voice data. The control unit 1 inputs audio data provided via the communication path 21 and outputs the audio data to the signal processing unit 4 (more specifically, the reproduction unit 4A).

  As described above, the reproducing unit 4A of the child device 20 can reproduce the audio data received via the DECT radio unit 3 or the audio data received via the communication path 21. Here, in order to simplify the description, it is assumed that the audio data reproduced by the reproducing unit 4A is audio data received via the DECT radio unit 3.

  Base unit 40 has a signal input / output unit 32 for inputting / outputting data and power signals between CPU 31 and slave unit 20, and an AC for inputting power signals from an external commercial AC (Alternating Current) power supply 35. A power supply I / F 33 and a telephone circuit 34 for connecting a fixed telephone line 50 and transmitting and receiving various signals including voice signals to and from the telephone line 50 are provided.

  Base unit 40 also includes an answering key 36, a storage unit 37, an LED 38 provided in association with answering key 36, and a DECT wireless unit 39 connected to antenna 39A. The storage unit 37 stores the identifier ID, program, and data (including voice data) of the parent device 40. When the answering key 36 is operated, the CPU 31 controls the LED 38 so that it is turned on / off. The operation mode of the parent device 40 can be notified by the lighting / extinguishing state of the LED 38 as described later.

  The signal input / output unit 32 includes a charging I / F 32 </ b> A for supplying a power signal to the child device 20 and a communication I / F 32 </ b> B for supplying audio data to the child device 20. When the slave unit 20 is placed on the cradle unit 44, the master unit 40 is connected to the signal input / output unit 6 of the slave unit 20 and the signal input / output unit 32 of the master unit 40 via the communication path 21 so that they can communicate with each other. Is done. In such a connection state, the parent device 40 transmits a power signal supplied from the AC power source 35 to the child device 20. Thereby, the built-in battery unit 7 is charged by the power signal from the AC power source 35 during the period in which the slave unit 20 is mounted on the cradle unit 44. Also, the audio data read from the storage unit 37 by the CPU 31 is transmitted to the slave unit 20 via the DECT radio unit 39.

  In the first embodiment, the home mode and the absence mode are included in the operation modes that can be taken by base unit 40. Switching between the home mode and the absence mode is performed by a user operation of the absence key 36. If the answering key 36 is operated when the current operation mode is “answer mode”, the current operation mode is switched from “answer mode” to “home mode”. Conversely, when the answering key 36 is operated when the current operation mode is “at-home mode”, the current operation mode is switched from “at-home mode” to “at-home mode”. The CPU 31 stores data indicating the current operation mode of the parent device 40 in the storage unit 37.

  FIG. 5 is a diagram showing an example of stored contents of the storage unit 37 of the parent device 40 of FIG. Referring to FIG. 5, storage unit 37 stores voice data related to an answering machine and ID (identifier) data 371 that is identification information of a specific handset 20 to be described later. The voice data related to the answering machine includes guidance voice data 372 and answering record data 373 for guidance related to the answering machine.

  The answering record data 373 is voice data received from the calling side via the telephone line 50 and the telephone circuit 34 when the operation mode of the base unit 40 is the answering mode, and is recorded in the storage unit 37 by the CPU 31 ( Audio data to be stored is shown. Answering data 373 is preferably stored in association with incoming call time data. Note that the incoming call process in the absence mode and the process of storing the received voice as the recorded message data 373 are well-known processes, and therefore description thereof will not be repeated here.

  Guidance voice data 372 includes first guidance data, second guidance data, and third guidance data. The first guidance data represents a message output when the current operation mode is switched from the “home mode” to the “absence mode”, for example, “I can't answer the phone now”. The second guidance data represents a message that is output together with the voice of the recorded message data 373, for example, “one message ... reproduction has ended”. The third guidance data represents a message that is output when the current operation mode is switched from the “absence mode” to the “at-home mode”, for example, “the absence setting has been cancelled, the number of messages is zero”. Note that the type of message based on the guidance data is not limited to this.

  As described above, of the parent device 40 and the child device 20, only the parent device 40 has a function of recording voice data received from the telephone line 50 in the storage unit (storage unit 37) (so-called absence recording function), The cordless handset 20 does not have an answering machine function. Of the master unit 40 and the slave unit 20, only the slave unit 20 has a playback unit 4A for voice data and a voice input / output unit (speaker unit 8, microphone 9). Does not have a part.

  FIG. 6 is a diagram illustrating a functional configuration of the slave unit 20 according to the first embodiment. FIG. 7 is a diagram showing a functional configuration of base unit 40 according to the first embodiment. Referring to FIG. 6, the control unit 1 of the slave unit 20 detects whether or not the slave unit 20 is mounted on the cradle unit 44 of the master unit 40 based on the output from the pin detection unit 14. Part 1A. Referring to FIG. 7, CPU 31 of parent device 40 includes a determination unit 31 </ b> A for determining whether or not child device 20 exists in the wireless communication possible area of parent device 40. The determination unit 31 </ b> A determines whether or not the child device 20 exists in the wireless communicable area of the parent device 40 based on the strength of the radio wave received from the child device 20 via the DECT wireless unit 39. The program of the detection unit 1 </ b> A in FIG. 6 is stored in the storage unit 5 in advance. When the CPU of the control unit 1 reads and executes the program from the storage unit 5, the function of the detection unit 1A is realized. 7 is stored in advance in the storage unit 37. When the CPU 31 reads out and executes the program from the storage unit 37, the function of the determination unit 31A is realized. Each of detection unit 1A and determination unit 31A may be configured by a circuit, or may be configured by a combination of a circuit and a program.

  In the first embodiment, the parent device 40 can perform DECT wireless communication with a maximum of four child devices 20. That is, the identification information of the four slave units 20 is stored in the storage unit 37 of the master unit 40 by performing a pairing process between the master unit 40 and a maximum of four slave units 20 in advance. And

  In the first embodiment, the parent device 40 can perform DECT wireless communication with a maximum of four child devices 20. When the user operation is accepted by the answering key 36, the parent device 40 wirelessly transmits audio data to only one specific child device among the four child devices 20 at the maximum.

  One specific child device indicates “the child device 20 existing in the DECT communicable area” of the parent device 40. More specifically, the slave unit 20 is designated by the user. The identifier ID of the specific child device 20 is stored in advance as ID data 371 in the storage unit 37 of the parent device 40.

  FIG. 8 is a flowchart showing an example of communication processing between the parent device and the child device for the answering machine according to the first embodiment. FIG. 8 shows a process in which the parent device 40 transmits and reproduces voice data related to the answering machine to the specific child device 20 described above. The flowchart of FIG. 8 shows processing of the parent device 40 and the child device 20, and the processing on the child device 20 side is stored in advance in the storage unit 5 of the child device 20 as a program executed by the CPU of the control unit 1. The processing on the base unit 40 side is stored as a program in the storage unit 37 in advance as a program executed by the CPU 31.

  With reference to FIG. 8, transmission and reproduction of voice data related to an answering machine will be described. It is assumed that answering record data 373 is stored in storage unit 37 of base unit 40. First, on the base unit 40 side, the CPU 31 determines from the output of the answering key 36 whether or not the answering key 36 is operated by the user and the operation content is accepted (step S16). If it is determined that the operation content is not accepted (NO in step S16), the process of step S16 is repeated.

  If it is determined that the operation content has been accepted (YES in step S16), the CPU 31 determines the current operation mode of the parent device 40 (step S18).

  When determining that the current operation mode is the home mode (“at home” in step S20, the CPU 31 reads the first guidance data from the storage unit 37 (step S22). On the other hand, the current operation mode is determined as the “absence” mode. Then (“absence” in step S20), the CPU 31 searches the storage unit 37 to determine whether or not the recorded message data 373 is stored (step S24), and determines that the recorded message data 373 is stored. Then (YES in step S24), the CPU 31 reads the recorded message data 373 from the storage unit 37 and reads the second guidance data from the storage unit 37 (steps S26 and S28).

  On the other hand, when it is determined that the recorded message data 373 is not stored in the storage unit 37 (NO in step S24), the CPU 31 reads the third guidance data from the storage unit 37 (step S30).

  Next, the CPU 31 determines whether or not there is a specific child device 20 based on whether or not the ID data 371 is stored in the storage unit 37 (step S31).

  When the specific handset 20 reads the ID data 371 from the storage unit 37, the CPU 31 then sends the voice data (answering data 373 or guidance data) read in steps S22 to S30 and the playback mode command to DECT. It transmits to the subunit | mobile_unit 20 which ID data 371 shows via the radio | wireless part 39 (step S32).

  Thereafter, the CPU 31 invalidates the user operation of the answering key 36 (step S34). For example, even if the user can turn on / off the answering key 36, the CPU 31 ignores (discards) the output (operation content) from the answering key 36. . At this time, even if the answering key 36 is operated, the CPU 31 keeps the lighting state of the LED 38 unlit (or lit) without changing the lighting state, and informs the user that the operation is invalid. You may notify.

  As described above, after the reproduction mode command is transmitted from the parent device 40 to the specific child device 20, the audio data is reproduced and output from the specific child device 20 according to the reproduction mode command. When voice is output from the slave unit 20, the user tries to operate only the slave unit 20 that is actually outputting voice. Therefore, after the playback mode command is transmitted, the operation of the answering key 36 of the base unit 40 is invalidated, and the operation related to the answering machine is set so that it can be accepted only by the handset 20 side. can do.

  Thereafter, the CPU 31 receives a return instruction for instructing the return from the operation invalid state of the answering key 36 from the specific slave 20 (step S36). When receiving the return command, the CPU 31 returns the key operation of the answering key 36 from “invalid” to “valid” (step S38). As a result, the CPU 31 resumes accepting a user operation via the answering key 36. Thereafter, the process returns to step S16.

  Next, processing on the handset 20 side will be described. The control unit 1 determines whether or not audio data and a playback mode command are received from the parent device 40 via the DECT wireless unit 3 (step S9). If it is determined not to be received (NO in step S9), the process of step S9 is repeated. If it is determined that it has been received (YES in step S9), the control unit 1 causes the reproduction unit 4A to reproduce the audio data received together with the instruction in accordance with the received reproduction mode command, and the reproduced audio signal to the speaker unit. 8 to output. The speaker unit 8 outputs a sound according to the sound signal from the reproduction unit 4A (step S11).

  Thereafter, the control unit 1 accepts the user operation content for the return command described above via the operation unit 11 (step S13). Then, the control unit 1 transmits a return command to the parent device 40 via the DECT wireless unit 3 based on the received operation content (step S15). Thereafter, the process returns to step S9.

  According to the processing of FIG. 8, the parent device 40 controls so that only the specific child device 20 (in this case, the child device 20 designated by the user) is linked to the user operation of the answering key 36. Therefore, even if a maximum of four slave units 20 can be connected to the master unit 40, sound is output only from the slave unit 20 specified by the user (highly likely to be operated by the user). Then, it is possible to avoid a situation in which a voice is suddenly output from another child device 20 that is unlikely to be operated, that is, from a child device 20 that the user does not expect.

  FIG. 9 is a diagram illustrating an operation example of the answering key 36 according to the first embodiment. Here, the LED 38 and the answering key 36 are integrally formed. Thus, it can be presented that the answering key 36 is turned on / off according to the lighting / extinguishing of the LED 38. In FIG. 9, when the rectangular frame indicating the answering key 36 is indicated by a thin line, the answering key 36 is turned off, and when indicated by a thick line, the answering key 36 is turned on.

  First, referring to FIG. 9A, when the parent device 40 is in the “home mode”, the CPU 31 turns off the LED 38. When the user operates the answering key 36 in the “at-home mode”, the CPU 31 switches the operation mode from the “at-home mode” to the “at-home mode” based on the operation content, and turns on the LED 38. As a result, the answering key 36 can be turned on, and the user is notified that the parent device 40 has been changed to the “answering mode”. The process of FIG. 9A is performed in step S22 of FIG. 8. Therefore, together with the lighting control of FIG. 9A, the voice of the first guidance data described above is transmitted to the speaker unit 8 of the specific slave unit 20. Is output from.

  In addition, with reference to FIG. 9B, a case will be described in which the parent device 40 is in the “answer mode” and unplayed answering record data 373 is not stored. In this case, the CPU 31 turns on the LED 38 to notify that the current operation mode is “absence mode” and that no unrecorded message recording data 373 is stored. At this time, when the user operates the answering key 36, the CPU 31 switches the operation mode from the “answering mode” to the “at-home mode” based on the operation content, and turns off the LED 38. As a result, the user is notified that the absence mode of base unit 40 has been canceled and has been changed to the “home mode”. The process of FIG. 9B is performed in step S30 of FIG. Therefore, the sound of the third guidance data described above is output from the speaker unit 8 of the specific handset 20 together with the turn-off control of FIG.

  Further, with reference to FIG. 9C, a case will be described in which the base unit 40 is in the “answer mode” and the unrecorded answer record data 373 is stored. In this case, the CPU 31 blinks (blinks) the LED 38 to notify that the current operation mode is the “answer mode” and that unrecorded answer data 373 is stored. At this time, when the user operates the answering key 36, the CPU 31 switches the operation mode from the “answering mode” to the “at-home mode” based on the operation content, and turns off the LED 38. As a result, the user is notified that the absence mode of base unit 40 has been canceled and has been changed to the “home mode”. The process of FIG. 9C is performed in step S28 of FIG. Therefore, the sound of the second guidance data described above is output from the speaker unit 8 of the specific handset 20 together with the turn-off control of FIG.

  Referring to FIG. 9C, when the operation mode of handset 20 is set to “automatic response OFF”, control unit 1 outputs the reproduced audio signal to speaker 8B. The playback unit 4A is controlled. Therefore, when the operation mode of the handset 20 is set to “automatic response OFF”, the user can listen to the voice message of the recorded message output from the speaker 8B without having the handset 20. . When the operation mode of the slave unit 20 is set to “automatic response ON”, the control unit 1 controls the playback unit 4A so as to output the reproduced audio signal to the ear speaker 8A. Therefore, when the operation mode of the handset 20 is set to “automatic response ON”, the user removes the handset 20 from the cradle unit 44 and places the ear speaker 8A on his / her ear so that the reproduced absence You can listen to the recorded voice message. Such processing on the handset 20 side is performed in step S11 of FIG.

  According to the first embodiment, even if the base unit 40 having the answering machine function does not include the voice data playback unit and the voice output unit, the voice data related to the answering machine in the storage unit 37 is stored in the child unit. By using the playback unit 4A and the speaker unit 8 of the machine 20, it is possible to output sound to the outside.

  In addition, by reproducing the sound with the specific slave unit 20, it is easy to find where the specific slave unit 20 specified by the user is.

[Embodiment 2]
In the second embodiment, a modification of the first embodiment will be described. In the first embodiment, the voice data related to the answering machine is transmitted to the specific handset 20 specified by the user. However, the specific handset 20 is out of the DECT wireless communication area of the base unit 40 or is turned off. If it is, the transmission destination is changed to the second specific handset 20 designated by the user, and the voice data related to the answering machine is transmitted to the second specific handset 20. Good.

[Embodiment 3]
In the third embodiment, a modification of the first and second embodiments will be described. In the first and second embodiments, the specific slave unit 20 is a slave unit designated in advance by the user, but is not limited to this. In the third embodiment, the specific slave unit 20 is the “slave unit 20 existing in the DECT communicable area” of the master unit 40 and is the slave unit 20 attached to the master unit 40 cradle unit 44. . Therefore, the voice data related to the answering machine is reproduced and output by the slave unit 20 attached to the cradle unit 44 of the master unit 40.

  FIG. 10 is a flowchart showing an example of processing for detecting a specific child device for wireless communication according to Embodiment 3 of the present invention. FIG. 10 shows a process of detecting the slave unit 20 attached to the cradle unit 44 as the specific slave unit described above. The flowchart of FIG. 10 shows processing of the parent device 40 and the child device 20, and the processing on the child device 20 side is stored in advance in the storage unit 5 of the child device 20 as a program executed by the CPU of the control unit 1. The processing on the base unit 40 side is stored as a program in the storage unit 37 in advance as a program executed by the CPU 31.

  With reference to FIG. 10, the process which detects the specific subunit | mobile_unit 20 described above is demonstrated. First, it is detected whether or not the user has attached the child device 20 to the cradle unit 44. Specifically, the detection unit 1A detects whether or not the hardware pin 45 of the cradle unit 44 is in contact with the housing of the child device 20 based on the output from the pin detection unit 14 (step S3). When pin contact is not detected (NO in step S3), that is, when it is detected that the handset 20 is not attached to the cradle unit 44, the process of step S3 is repeated.

  When pin contact is detected (YES in step S3), that is, when it is detected that the slave unit 20 is mounted on the cradle unit 44, the control unit 1 reads the identifier ID of the slave unit 20 from the storage unit 5. Then, the data is transmitted to the parent device 40 via the DECT wireless unit 3 (step S5).

  Further, the control unit 1 of the child device 20 determines whether or not the child device 20 is mounted on the cradle unit 44 in a manner that can be charged from the output of the power supply I / F 6A (step S7). The output includes, for example, a potential signal indicating whether or not the electrode terminal 46 is in contact. If it is determined that the battery is mounted in a chargeable manner (NO in step S7), the process in step S7 is repeated, and the built-in battery unit 7 is charged.

  If it is determined that the battery is not mounted in a chargeable manner (YES in step S7), that is, if it is determined that the slave unit 20 has been removed from the cradle unit 44, the process returns to step S3 and returns to the cradle unit 44. Whether or not the slave unit 20 is attached is detected.

  As described above, in the processing on the side of the slave unit 20 shown in FIG. 10, every time it is detected that the slave unit 20 is attached to the cradle unit 44, the identifier ID of the slave unit 20 is notified to the master unit 40. The Accordingly, the parent device 40 can acquire the identifier ID of the child device 20 every time the child device 20 is mounted on the cradle unit 44.

  On the other hand, on the parent device 40 side, the CPU 31 determines whether or not the identifier ID of the child device 20 is received from the output of the DECT wireless unit 39 (step S8). If it is determined that it has not been received (NO in step S8), the process of step S8 is repeated.

  If it is determined that the identifier ID has been received from the child device 20 (YES in step S8), the CPU 31 stores the received identifier ID in the storage unit 37 as the ID data 371.

  Subsequently, based on the output from the charging I / F 32A, the CPU 31 determines whether or not the child device 20 is mounted so as to be rechargeable (step S12). This output includes the terminal potential of the electrode terminal 46. If it is determined that it is mounted (NO in step S12), the process in step S12 is repeated. Thereby, the charge to the subunit | mobile_unit 20 is implemented.

  If it is determined that it is not mounted (YES in step S12), the CPU 31 deletes (clears) the ID data 371 from the storage unit 37 (step S14). Thereafter, the process returns to step S8.

  The processing of the parent device 40 shown in FIG. 10 is based on the output from the charging I / F 32A, and when it is detected that the child device 20 has been removed from the cradle unit 44, the ID of the child device 20 is stored from the storage unit 37. By deleting the data 371, the ID data 371 can be managed to indicate the identifier ID of the child device 20 currently attached to the cradle unit 44.

[Embodiment 4]
The fourth embodiment shows a modification of the first to third embodiments. In the fourth embodiment, the specific slave unit 20 is the “slave unit 20 existing in the DECT communicable area” of the master unit 40, and depends on the radio field intensity received by the master unit 40. Determined.

  Specifically, the determination unit 31A of the base unit 40 measures the strength of radio waves received from each of up to four slave units 20 whose connection is detected by the pairing process from the output of the antenna 39A, and measures the measured radio field strength. Based on the above, the specific handset 20 existing in the DECT communicable area is determined. The determined identifier ID of the child device 20 is stored in the storage unit 37 as ID data 371. Thereby, the voice data related to the answering machine can be reproduced and output by the specific handset 20 determined by the determination unit 31A.

  Further, the specific slave unit 20 may be a slave unit having the maximum received radio wave intensity among the slave units 20.

  The specific handset 20 for reproducing and outputting voice data related to the answering machine may be determined using any one of the first to fourth embodiments, or may be determined in combination. May be. For example, when it is determined that the specific handset 20 designated in advance by the user in the first embodiment is turned off (battery exhausted) or out of the DECT wireless communication range, the identification determined by the method of the third or fourth embodiment It may be switched to the slave unit 20.

[Embodiment 5]
In the fifth embodiment, it is also possible to provide a program for causing the CPU of the control unit 1 of the slave unit 20 to execute the control described in each of the above embodiments. A program for executing the control described in the embodiment can also be provided. By installing this program in the storage unit 5 of the slave unit 20 and the storage unit 37 of the master unit 40, the voice related to the answering machine by the specific slave unit 20 shown in each embodiment can be used in the existing communication system. Data reproduction output is realized. Therefore, by installing the program, it is possible to realize the reproduction output of voice data related to the answering machine even when the parent device 40 having the answering machine function does not have the voice reproduction and voice output functions.

  The program product includes the program itself and a recording medium on which the program is recorded. That is, as an example, the program may be downloaded to the parent device 40 by downloading via a fixed telephone line and then distributed to the child device 20 by DECT wireless communication or the communication path 21. As another example, it may be once distributed to a mobile phone or a mobile terminal via a network such as the Internet or a detachable memory, and distributed from such a device to the slave unit 20 by wireless communication. .

  The program according to the present invention is a part (module) of a program incorporated in another program, and may be provided by being incorporated in a part of the other program. Alternatively, only the module may be provided and used by being incorporated in a part of another program (or by rewriting the module part). Such a program incorporated (embedded) in another program can also be included in the program according to the present invention.

(Disclosure)
The disclosed contents of the embodiment can be expressed as follows.

(1)
A communication system including a master unit (master unit 40) connected to a fixed telephone line (telephone line 50) and at least one slave unit (slave unit 20) capable of wireless communication with the master unit. The base unit communicates with the slave unit, a storage unit (storage unit 37) for storing voice data related to the answering machine, an operation unit (answering key 36) for receiving an operation related to the answering machine. The communication unit (DECT wireless unit 39), and when the operation is accepted by the operation unit, the communication unit transmits the audio data in the storage unit to the slave unit.

  The slave unit includes a playback unit (playback unit 4A) that plays back audio data, and an audio output unit (speaker unit 8) that outputs the sound played back by the playback unit, and receives the audio data transmitted from the base unit Playback by the playback unit.

  In the communication system according to (1), the function of reproducing voice data related to the answering machine and the function of outputting voice can be provided on the handset side, so that these functions can be omitted on the base side.

(2)
The voice data related to the answering machine includes received voice data (answering data 373) received via the line from the calling side, and guidance voice data (guidance voice data 372) for guidance related to the answering machine. including.

  In the communication system according to (2), received voice data and guidance voice data for guidance related to the answering machine can be included as voice data related to the answering machine.

(3)
Further, when transmitting the audio data, the communication unit transmits a reproduction instruction for instructing reproduction of the audio data to the child device.

  In the communication system according to (3), a voice data reproduction instruction can be transmitted to the slave unit together with the voice data.

(4)
When the reproduction instruction is transmitted to the child device, the parent device thereafter invalidates the acceptance of the operation by the operation unit.

  In the communication system according to (4), by invalidating the operation unit of the parent device, the user device can accept a user operation on behalf of the parent device.

(5)
The parent device further includes a mounting portion for detachably mounting the child device.

In the communication system according to (5), the child device can be attached to the parent device.
(6)
A communication part transmits audio | voice data to the subunit | mobile_unit with which the mounting part was mounted | worn.

  In the communication system according to (6), it is possible to cause the child device attached to the parent device to reproduce and output sound data.

(7)
The slave unit further includes a detection unit for detecting whether or not the slave unit is mounted on the mounting unit, and when the slave unit detects that the slave unit is mounted, Notify the master unit of the identification information of the slave unit.

  In the communication system according to (7), since the child device to which the parent device is attached can notify the parent device of its own identification information, the parent device does not need to perform identification information inquiry processing.

(8)
The parent device further includes a determination unit that determines whether or not the child device is present in the wireless communicable area based on the strength of the radio wave received from the child device, and the communication unit receives the audio data by the determination unit. Send to the handset determined to exist.

  In the communication system according to (8), voice data can be transmitted to a slave unit determined based on the received radio wave intensity among the slave units within the communicable area of the master unit, and reproduction and voice output can be performed.

(9)
A communication method disclosed in an embodiment is a communication method in a communication system including a parent device connected to a fixed telephone line and at least one child device capable of wireless communication with the parent device. The base unit includes a storage unit for storing voice data related to the answering machine, an operation unit for accepting an operation related to the answering machine, and a communication unit for communicating with the slave unit. When the operation is accepted by the operation unit, the method includes a step of transmitting voice data in the storage unit to the slave unit by the communication unit.

  Further, the slave unit includes a reproduction unit that reproduces audio data, and an audio output unit that outputs the audio reproduced by the reproduction unit, and the communication method further includes the audio data transmitted from the master unit. A step of reproducing by the reproducing unit;

  In the communication method according to (9), the reproduction of the voice data related to the answering machine on the parent machine side and the voice output step are performed on the child machine side, so that the execution of these steps is omitted on the parent machine side. be able to.

(10)
A program for executing the communication method of (9) above using a computer is provided.

  The embodiment disclosed this time should be considered as illustrative in all points and not restrictive. The scope of the present invention is defined by the terms of the claims, rather than the description above, and is intended to include any modifications within the scope and meaning equivalent to the terms of the claims.

  1 control unit, 1A detection unit, 4A playback unit, 8 speaker unit, 9 microphone, 14 pin detection unit, 20 slave unit, 31A determination unit, 36 answering key, 40 base unit, 44 cradle unit, 45 hardware pin, 46 Electrode terminal, 50 telephone line, 371 ID data, 372 guidance voice data, 373 answering data.

Claims (8)

A communication system comprising a master unit connected to a fixed telephone line and at least one slave unit capable of wireless communication with the master unit,
The base unit is
A storage unit for storing voice data related to the answering machine;
An operation unit for receiving an operation related to the answering machine;
A communication unit for communicating with the slave unit,
When the operation is accepted by the operation unit, the communication unit transmits the audio data of the storage unit to the slave unit,
The slave is
A playback unit for playing back audio data;
An audio output unit for outputting the audio reproduced by the reproduction unit,
A communication system in which audio data transmitted from the parent device is reproduced by the reproduction unit.   The voice data related to the answering machine includes received voice data received from the calling side via the line and guidance voice data for guidance related to the answering machine. Communications system. The communication unit further includes:
The communication system according to claim 1 or 2, wherein when transmitting the audio data, a reproduction instruction for instructing reproduction of the audio data is transmitted to the slave unit. The base unit is
The communication system according to claim 3, wherein when the reproduction instruction is transmitted to the child device, reception of an operation by the operation unit is invalidated thereafter.   The communication system according to any one of claims 1 to 4, wherein the parent device further includes a mounting portion for detachably mounting the child device.   The communication system according to claim 5, wherein the communication unit transmits the audio data to the child device attached to the attachment unit. The slave unit is further
A detection unit for detecting whether or not the child device is mounted on the mounting unit,
The communication system according to any one of claims 1 to 4, wherein when it is detected that the detection unit is attached, the identification information of the child device for the wireless communication is notified to the parent device. . The master unit is further
Based on the strength of radio waves received from the slave unit, including a determination unit that determines whether or not the slave unit is present in a wireless communicable area;
The communication system according to any one of claims 1 to 7, wherein the communication unit transmits the audio data to a child device determined to be present by the determination unit.

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