JP3789039B2 - Telephone device and transmission / reception unit - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
  The present invention provides a telephone device comprising a main body that communicates with another telephone device, and a communication device that transmits and receives audio signals to and from the main body.And a transceiver unit for wireless communication with a telephoneAbout.
[0002]
[Prior art]
Such a telephone device is provided with a main body side wireless communication device for wirelessly communicating with a telephone having a microphone and a speaker in a main body that communicates with other telephone devices, Is provided with a talker-side radio communication device for communicating with the main body side radio communication device. That is, the main unit corresponds to a so-called cordless telephone base unit, and the telephone set corresponds to a handset. By configuring the telephone device in this way, the user of the telephone device can By using it, it is not subject to much restrictions on the position to be used, and is convenient.
By the way, conventionally, the microphone provided in the telephone has generally used a so-called air-conduction type microphone that picks up sound that is emitted from the mouth of the user and propagates in the air.
[0003]
[Problems to be solved by the invention]
Therefore, in the conventional configuration, the speaker and the air conduction type microphone are placed in an ergonomic position determined by CCITT or EIA, that is, the speaker is close to the user's ear, and the air conduction type microphone is the user's mouth. There is a disadvantage that the shape of the telephone set becomes large.
In addition, the air-conduction microphone detects not only the voice emitted by the user but also ambient noise, etc., which causes noise that degrades the quality of the transmitted voice, making it difficult for the other party to hear the call. There was also an inconvenience.
The present invention has been made in view of the above circumstances, and an object thereof is to improve the call quality as much as possible and to reduce the size of the telephone.
[0004]
[Means for Solving the Problems]
  With the configuration of the above-described claim 1, the microphone provided in the communication device is mounted in a state in contact with the concha cavity portion of the human ear and detects sound vibration from the vocal cords. The device is provided and configured to include a sound vibration detection device that detects sound vibration from the vocal cords, and detects so-called bone conduction sound that is propagated from the vocal cords to the ear by bone conduction. Therefore, it is not necessary to arrange the microphone near the user's mouth, the microphone and the speaker can be arranged close to each other, and the size of the telephone can be reduced. In addition, since the microphone of the communication device detects bone conduction sound, detection of ambient noise is sufficiently suppressed. Accordingly, it has become possible to provide a telephone device that can improve the call quality as much as possible and can reduce the size of the telephone.
In addition, even when the main body unit is not equipped with a transmission / reception circuit for wireless communication with the telephone, the voice input / output terminal which is the first connector connected to the communication control unit generally provided in the main body unit, By connecting a transmission / reception unit including a main body side wireless communication device for wireless communication with a telephone, wireless communication between the main body and the telephone can be performed. For this reason, even a conventional telephone device that does not have a wireless communication function with a telephone can be used as it is or with a slight modification.
Further, the transmission / reception unit has a hook button, a second connector connected to the handset, a hook button, a first connector, a second connector, and a changeover switch connected to the main body side wireless communication device. Yes. Then, when the hook button is pressed, the changeover switch connects the main body side wireless communication device to the communication control section of the main body portion via the first connector. When the hook button is not pressed, the second connector connected to the handset is connected to the communication control device of the main body via the first connector. As described above, the connection state between the communication control circuit and the handset or the telephone can be switched by the changeover switch, so that a mode for making a call as it is on the handset and a mode for making a call on the telephone are selected as necessary. It becomes possible.
[0006]
  The above claims2With the configuration described above, when the user operates the call command switch of the telephone when the main body receives a call signal from the other party of the call, the main body side wireless communication device and the communication device side wireless communication device The transmission / reception of a voice signal for a call with the other party is started.
  Therefore, taking advantage of the small size of the telephone as described above, if the user holds the telephone, when the user receives a call from the other party, the user is placed away from the main body. Even if it is located, it is possible to use the telephone apparatus such that the telephone call command switch of the telephone intercom is operated to immediately start a telephone call, and the telephone device can be made more convenient.
[0011]
  The above claims3Thus, the main body is configured by a stationary telephone device.
  In many cases, the main body of such a telephone device is generally placed on an office desk or the like, but in such a case, as described above, the telephone is small and the position of the user is large. It is possible to make a call while maintaining an attitude that makes it easy to continue work even when a call is received, and to refer to materials, etc., and it is extremely effective to downsize the telephone as described above. .
  In addition, by providing the configuration of claim 4, the voice connected to the communication control unit generally provided in the main unit even when the main unit does not include a transmission / reception circuit for wireless communication with the telephone. By connecting a transmission / reception unit including a wireless communication device for wireless communication with a telephone to a connector that is an input / output terminal, wireless communication between the main body and the telephone can be performed. For this reason, even a conventional telephone device that does not have a wireless communication function with a telephone can be used as it is or with a slight modification.
The transmission / reception unit includes a hook button, a connector connected to the handset, and a changeover switch connected to the hook button and the connector. The changeover switch connects the wireless communication device to the main unit when the hook button is pressed. If the hook button is not pressed, the connector connected to the handset is connected to the main body. As described above, the connection state between the main unit and the wireless communication device or the handset can be switched by the changeover switch, so that a mode for making a call as it is on the handset and a mode for making a call on the telephone are selected as necessary. It becomes possible.
  Further, the microphone included in the telephone set is configured to include a voice vibration detection device that is mounted in a state in contact with the concha cavity of the human ear and detects voice vibration from the vocal cords. A voice vibration detection device for detecting voice vibration from the voice is detected and so-called bone conduction voice transmitted from the vocal cords to the ear portion by bone conduction is detected. Therefore, it is not necessary to arrange the microphone near the user's mouth, the microphone and the speaker can be arranged close to each other, and the size of the telephone can be reduced. In addition, since the microphone of the communication device detects bone conduction sound, detection of ambient noise is sufficiently suppressed. Accordingly, it has become possible to provide a telephone device that can improve the call quality as much as possible and can reduce the size of the telephone.
[0012]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
[First Embodiment]
As shown in FIGS. 1 and 2, the telephone device PS according to the first embodiment is composed of a stationary telephone device, and is connected through a public telephone line or a private telephone line (hereinafter simply referred to as “telephone line”). A main unit MU that communicates with the telephone device, and a telephone unit SU that transmits and receives voice signals to and from the main unit MU by wireless communication.
As shown in FIG. 1 and FIG. 2, the main unit MU has a voice signal to and from the telephone set SU via the main body side antenna 1 and the transmission / reception circuit 2 and the transmission / reception circuit 2 for wireless communication with the telephone set SU. And a control / drive circuit 4 for transmitting / receiving a voice signal to / from a telephone device of the other party of the call, and a call switch 5a, a disconnect switch 5b and a telephone number input via a connector 3 for connecting to a telephone line A key operation unit 5 having a keyboard 5c is provided. Accordingly, the main body side radio communication device MR for communicably communicating with the handset SU is provided with the main body side antenna 1 and the transmission / reception circuit 2, and the control / drive circuit 4 is also a part of the main body side radio communication device MR. Function as.
[0013]
As shown in FIG. 1 and FIG. 2, a voice signal is transmitted to and from the main unit MU via the communication unit side antenna 6 and the transmission / reception circuit 7, the transmission / reception circuit 7, and the like for wireless communication with the main unit MU. A control / drive circuit 8 for transmitting and receiving signals, a call switch 9, an incoming call indicator lamp 10 for notifying that a call has been received from the other party of the call, a speaker 11 for emitting the voice of the other party of the call, and a telephone device PS A microphone 12 for detecting the user's voice and a battery (not shown) are provided. Accordingly, the communication device side antenna 6 and the transmission / reception circuit 7 are provided, and the communication device side wireless communication device SR for wireless communication with the main body portion side wireless communication device MR is configured, and the control / drive circuit 8 also includes the communication device side wireless communication. It functions as a part of the device SR.
[0014]
As shown in FIG. 1, a speaker SU includes a speaker 11 and a microphone 12 which are integrally formed, and the transmitter / receiver circuit 7, the control drive circuit 8 and the like are accommodated in a speaker casing 13, and the speaker casing The telephone-side antenna 6 extends downward from the lower portion of 13. Further, a call switch 9 and an incoming call indicator lamp 10 are provided on the surface of the telephone case 13.
The microphone 12 provided in the communication device SU includes a voice vibration detection device AP that detects voice vibration from the vocal cords to the ear part, that is, a bone conduction voice, and a signal processing circuit SP that performs signal processing on the detection signal of the voice vibration detection device AP. Is configured.
[0015]
As shown in FIGS. 3 and 5, the audio vibration detection device AP includes two piezoelectric elements 15 each formed in a substantially rod shape and connected at one end thereof by soldering in the housing 14, and the piezoelectric elements. 15 and an electromagnetic shield case 16 that firmly covers one end and firmly holds one end thereof.
The housing 14 is made of a material that is hard to accurately transmit bone conduction sound and is easy to maintain humidity, and its surface is polished to a mirror shape so as to be in close contact with the skin. Improves sex. Examples of materials that can easily maintain humidity include polyamide-based resins and ABS resins, and ABS resins are particularly preferable because they have good moldability and are inexpensive.
The electromagnetic shield case 16 is for improving the S / N ratio, and is firmly supported by the housing 14 that protects the electromagnetic shield case 16 and the like in order to accurately transmit bone conduction sound to the piezoelectric element 15. Yes.
As shown in FIG. 6, each piezoelectric element 15 is bonded with a conductive adhesive so as to sandwich a shim material 15b between two polarized piezoelectric ceramic materials 15a. This constitutes a bimorph type piezoelectric element.
[0016]
As shown in FIG. 7, the signal processing circuit SP is mainly composed of a circuit component such as an FET 17 and a capacitor (not shown) that perform impedance conversion when a detection signal of the piezoelectric element 15 is input. As shown in FIG. 1, the circuit board 18 is mounted. An output signal (a drain-source signal) of the FET 17 is input to the control drive circuit 8. The circuit board 18 is also accommodated in the electromagnetic shield case 16.
[0017]
As shown in FIG. 3, the speaker 11 provided in the communication device SU is configured as an earphone type, and is arranged so as to cover the dynamic speaker type small speaker unit 19 and the front surface of the small speaker unit 19. A protector 20 that protects 19 and a damping member 21 that holds the rear side of the small speaker unit 19 and also functions as a housing of the speaker 11 are provided. This vibration damping member 21 is made of a relatively large specific gravity such as brass or iron and is made of an inexpensive metal in order to absorb and attenuate mechanical micro-vibration generated in the small speaker unit 19 as much as possible. It is supported by the support member 22.
[0018]
The support member 22 supports the vibration control member 21 of the speaker 11 and the housing 14 of the sound vibration detection device AP constituting the microphone 12 so as to form a bifurcated shape, and mechanical vibration from the speaker 11 to the microphone 12 is achieved. In addition, the signal line connecting the speaker 11 and the microphone 12 and the control / drive circuit 8 is passed through the support member 22 to protect them.
A clamping member 23 is attached to the support member 22 for stabilizing the mounting state of the speaker 11 and the microphone 12 on the ear. The clamping member 23 is made of a material having viscoelastic properties, specifically, a material such as a rubber material or a vinyl chloride having a hardness of about 30 to 110 degrees.
[0019]
As shown in FIGS. 8 and 9, the communication device SU having the above-described configuration is used with the speaker 11 and the microphone 12 attached to the ear portion. In the attached state, the communication device housing 13 includes the support member 22. It is suspended and supported by a signal line 14a that hangs downward from the housing 14 via the via. Therefore, the user does not need to support the handset SU with hands or the like, and can use both hands freely.
The human ear has a structure as shown in FIG. 10, and the speaker 11 and the microphone 12 are mounted in the concha cavity 24 in contact with the concha cavity 24, as shown in FIGS. Stable by being held by the antrum 25 and the tragus 26 that are connected to the concha cavity 24, and by holding the edge 24a of the concha cavity 24 by the housing 14 and the clamping member 23. Supported by
In this wearing state, the housing 14 of the sound vibration detection device AP is, as shown in FIG. 9, a bottom portion that is the position closest to the vocal cords and can efficiently detect bone conduction sound among the positions in the concha cavity portion 24. The bone conduction sound is detected from the bottom 24b, and in order to perform this detection efficiently, as shown in FIG. 5, the concha cavity 24 in the housing 14 is detected. The contact surface (lower surface) with the bottom portion 24b is convex downward to match the shape of the bottom portion 24b of the concha cavity portion 24 so as to make the contact area as wide as possible.
[0020]
Further, in the mounted state, the positions of the center of gravity of the speaker 11 and the microphone 12 are located on the inner side of the concha cavity 24 than the holding position of the edge 24 a of the concha cavity 24 by the housing 14 and the holding member 23. The housing 14 is accurately maintained in contact with the bottom 24 b of the concha cavity 24 by the load of the microphone 11 and the speaker 12 and the clamping force of the clamping member 23 and the like. It should be noted that the load applied to the bottom 24b of the concha cavity 24 by the speaker 11 is large enough to remove the effects of skin irregularities and skin hair, and the load is excessive. In order to prevent the user from feeling uncomfortable, it is set to be about several grams to 20 grams.
On the other hand, in the mounted state, the speaker 11 has the sound emitting surface side of the small speaker unit 19 facing the ear canal 27 of the ear, and emits the voice of the other party of the call toward the ear canal 27.
[0021]
Next, the operation of the telephone device PS will be described in relation to the user's operation.
First, a case where a call is received from the other party of the call will be described.
When the call signal is received from the telephone line via the connector 3, the control / drive circuit 4 transmits the call signal from the main body side antenna 1 and the transmission / reception circuit 2.
On the side of the handset SU, when the handset-side antenna 6 and the transmission / reception circuit 7 receive this call signal, the control / drive circuit 8 sends the call signal to the incoming call indicator lamp 10 and the speaker 11 to make a ringing tone and display the incoming call. The lamp 10 is blinked.
[0022]
When the user recognizes that the telephone call has been made by the ringing tone or the flashing of the incoming call indicator lamp 10, the user attaches the telephone SU to the ear as appropriate and holds the telephone case 13 to hold the telephone switch 9 Press to operate.
By this operation, the control / drive circuit 8 of the intercom SU transmits the signal indicating that the call switch 9 is pushed from the intercom antenna 6 and the transmission / reception circuit 7.
When the main unit MU receives this signal, the control / drive circuit 4 shifts to a state in which communication is possible by predetermined communication with the telephone line side, and the transmission / reception circuit 2 is connected between the main unit MU and the communication unit SU. , 7, the voice signal of the other party of the call and the voice signal of the user are transmitted and received via the main body side antenna 1 and the talker side antenna 6.
Accordingly, the call switch 9 of the caller SU functions as a call command switch CS for instructing the start of a call.
Even when the call switch 5a of the main unit MU is pushed, it is possible to make a call with the other party in the same manner as described above.
[0023]
When the phone call in the above-described usage mode is completed, the user presses the call switch 9 of the phone SU again.
When the call switch 9 is pushed again, the control / drive circuit 8 of the caller SU transmits a signal to that effect from the caller-side antenna 6 and the transmission / reception circuit 7.
The main unit MU receives this signal, and the control / drive circuit 4 disconnects communication with the telephone line side. Even when the disconnect switch 5b of the main unit MU is pressed, the communication is disconnected in the same manner as described above.
[0024]
Next, a case where a user of the telephone device PS makes a call to the other party of the call will be described.
In this case, after the user presses the call switch 5a of the main unit MU, the user presses the telephone number corresponding to the other party on the telephone number input keyboard 5c or corresponds to the other party on the call. The telephone number to be pressed is pressed using the telephone number input keyboard 5c, and then the call switch 5a is pressed.
The control / drive circuit 4 is in a state in which the telephone number pushed by the telephone number input keyboard 5c can be inputted to the telephone line side as the call switch 5a is pushed. The telephone number input keyboard 5c or the control / drive circuit 4 is provided with a buffer memory for temporarily storing the telephone number pushed by the telephone number input keyboard 5c.
After the telephone number is input to the telephone line in this way, when the other party of the call picks up the receiver, the conversation between the two becomes possible.
The mode of use of the communication device SU at the time of this call is the same as that when the above-mentioned call is received.
[0025]
Further, as an operation for making a call to the other party of the call, the call switch 9 of the caller SU may be pushed. When the call switch 9 is pushed, the control / drive circuit 8 transmits a signal indicating that the call switch 9 is pushed from the telephone antenna 6 and the transmission / reception circuit 7.
When the control / drive circuit 4 of the main unit MU receives this signal via the main body side antenna 1 and the transmission / reception circuit 2, the control / drive circuit 4 is exactly the same as when the call switch 5a is pressed. The telephone number can be input to the telephone line side.
When the conversation between the user and the other party of the call is terminated and the disconnect switch 5b of the main unit MU or the call switch 9 of the caller SU is pushed, the same as when making a call from the user side described above. Communication with the telephone line is disconnected.
[0026]
[Second Embodiment]
The second embodiment is common to the first embodiment in that the main body MU is configured as a stationary telephone device. However, in the second embodiment, the main body wireless communication device MR is configured. The main body side wireless communication device MR is provided in the main body MU in that the main body side antenna 1 and the transmission / reception circuit 2 are configured separately from the main body case 30 of the main body MU as the transmission / reception unit RU. It differs from the said 1st Embodiment made into the structure which accommodates.
[0027]
That is, in the telephone device PS of the second embodiment, a telephone handset HS (hereinafter referred to as “handset HS”) and the transmission / reception unit RU are connected by a cord L1 provided in the handset HS, The main body casing 30 is connected by a cord L2. The cord L2 which is the communication line CL of the transmission / reception unit RU is connected to the connector 30a which is the audio signal input / output terminal IO provided in the main body housing 30, and this connector 30a is originally intended for the handset HS. A cord to which the cord L1 is connected is used.
[0028]
FIG. 12 shows a block diagram of the telephone device PS. In FIG. 12, components having the same functions as those in the first embodiment are given the same reference numerals.
In addition to the main body antenna 1 and the transmission / reception circuit 2, the transmission / reception unit RU is provided with a hook button 31 and a changeover switch 32 interlocked with the hook button 31 shown in FIG.
This change-over switch 32 is a switch for switching whether the cord L2 is connected to the handset HS side or the transmission / reception circuit 2 side. When the handset HS is put on the hook button 31 of the transmission / reception unit RU, When the cord L2 is connected to the transmission / reception circuit 2 side and the handset HS is not placed on the hook button 31, the cord L2 is connected to the handset HS side.
The communication device SU of the second embodiment basically illustrates the case where the communication device SU in the first embodiment is used as it is, but the operation of the control / drive circuit 8 is slightly different as will be described later. Further, the call switch 9 and the incoming call indicator lamp 10 are not necessarily required.
[0029]
Next, the operation of the telephone device PS will be briefly described.
First, a case where a call is received from the other party of the call will be described.
In the standby state, the handset HS is placed on the hook button 30b provided in the main body housing 30, and when the call signal is received from the telephone line via the connector 3, the control / drive circuit 4 Then, a ringing tone is generated on a speaker (not shown).
When the user recognizes that a call is received by the ringing tone, the user lifts the handset HS from the main body housing 30.
When the hook button 30b detects this operation, the control / drive circuit 4 shifts to a state in which a call can be made by predetermined communication with the telephone line side, and the user can make a call with the other party using the handset HS.
[0030]
On the other hand, when the user places the handset HS lifted from the main body housing 30 on the hook button 31 of the transmission / reception unit RU, the cord L2 is connected to the transmission / reception circuit 2 as described above, and the main body is the transmission / reception antenna AN. A main body side radio communication device MR including a side antenna 1, a transmission / reception circuit 2 and a control / drive circuit 4 functioning as a communication control unit CC for these, a talker side antenna 6, a transmission / reception circuit 7, and a control / drive circuit 8 is in a state in which a call between the user and the other party is transmitted to and received from the talker-side radio communication device SR configured in FIG. Therefore, the user can make a call with the other party by attaching the telephone SU to the ear.
When the telephone conversation in the above-described usage mode ends, the user changes the handset HS from the hook button 31 of the transmission / reception unit RU to the hook button 30b of the main body housing 30, and the control / drive circuit 4 When this operation is detected from the state of the button 30b, the communication with the telephone line side is disconnected.
[0031]
When making a call from the user of the telephone device PS to the other party of the call, after the handset HS is lifted from the hook button 30b of the main body housing 30, the telephone number corresponding to the other party of the call is input. When the keyboard 5c is pressed, the control / drive circuit 4 inputs a telephone number to the telephone line side in accordance with this operation, and conversation is possible between both parties when the other party picks up the receiver. It becomes a state.
The form of this call is the same as that when the above-mentioned telephone is received. As described above, the form in which the telephone is directly communicated with the handset HS and the handset HS are transferred to the hook button 31 of the transmission / reception unit RU. , A format for making a call using the caller RU can be selected.
[0032]
[Third Embodiment]
The third embodiment is different from the first embodiment in which the main body MU is configured as a stationary telephone device in that the main body MU is configured as a portable wireless telephone device.
[0033]
By making the main body MU a portable radiotelephone device, as shown in FIGS. 13 and 14, the main body MU in the third embodiment is connected to the base station instead of the connector 3 in the first embodiment. A main antenna 40 and a main transmission / reception circuit 41 are provided.
Other components having the same functions as those of the first embodiment are denoted by the same reference numerals as those of the first embodiment.
The communication device SU is the same as the communication device SU in the first embodiment.
[0034]
Next, the operation of the telephone device PS will be schematically described in relation to the user's operation.
First, a case where a call is received from the other party of the call will be described.
When the main antenna 40 and the main transmission / reception circuit 41 receive a calling signal by wireless communication from a base station or the like, the control / drive circuit 4 causes the main body antenna 1 and the transmission / reception circuit 2 to transmit the calling signal. Along with this, as in the first embodiment, a ringing tone is generated on the side of the telephone SU and the incoming call indicator lamp 11 flashes.
When the user recognizes that a telephone call has been made by the ringing tone or the flashing of the incoming call indicator lamp 11, the user wears the telephone SU and presses the call switch 9.
[0035]
As a result of this operation, as in the first embodiment, the state is changed to a state in which a call can be made by predetermined communication with a base station or the like, and is configured by the main body antenna 1, the transmission / reception circuit 2, and the control / drive circuit 4. Between the main body side radio communication device MR and the talker side radio communication device SR constituted by the talker side antenna 6, the transmission / reception circuit 7 and the control / drive circuit 8, the voice signal of the other party of the call and the user The voice signal is sent and received. Therefore, even if the user of the telephone device PS is in a state where the main body MU is put in a bag, for example, if the small telephone SU is put in a pocket of clothes, a telephone call is made from the other party of the call. When this happens, the operation of taking out the main body MU from the bag each time becomes unnecessary, and the handling becomes convenient.
Even when the call switch 5a of the main unit MU is pushed and operated because the main unit MU is at the user's hand, it is possible to make a call with the other party in the same manner as described above.
[0036]
The use mode of the telephone SU during a call, the processing when the call is terminated, and the operation when making a call from the user side of the telephone device PS to the other party of the call are the same as in the first embodiment. Therefore, explanation is omitted.
In the third embodiment, the user of the telephone device PS talks with the other party using the telephone SU, but the main body MU includes a speaker and a microphone, and the main body MU alone makes a call. You may be able to do.
[0037]
[Fourth Embodiment]
The fourth embodiment is similar to the third embodiment in that the main body unit MU is configured by a portable wireless telephone device, but in the fourth embodiment, the main body unit side wireless communication device MR. The main body side antenna 1 and the transmission / reception circuit 2 constituting the main body unit MU are configured separately from the main body unit housing 30 of the main body unit MU as the transmission / reception unit RU. This is different from the third embodiment in which the communication device MR is accommodated.
That is, in the telephone device PS of the fourth embodiment, as shown in FIGS. 15 and 16, the receiving unit RU and the main body casing 30 are connected by the cord L3. The cord L3 that is the communication line CL of the transmission / reception unit RU is connected to a jack 50 that is an audio signal input / output terminal IO provided in the main body housing 30. The jack 50 uses a generally provided microphone / earphone terminal. In addition, since the communication device SU in the fourth embodiment is basically the same as the configuration of the communication device SU in the third embodiment, only the configuration of the main unit MU is shown in the block configuration diagram shown in FIG. In addition, components having the same functions as those in the third embodiment are given the same reference numerals.
[0038]
Next, the operation of the telephone device PS will be briefly described.
When the main antenna 40 and the main transmission / reception circuit 41 receive a calling signal by wireless communication from a base station or the like, the control / drive circuit 4 causes the main body antenna 1 and the transmission / reception circuit 2 to transmit the calling signal. Along with this, as in the first embodiment, a ringing tone is generated on the side of the telephone SU and the incoming call indicator lamp 11 flashes.
When the user recognizes that a telephone call has been made by the ringing tone or the flashing of the incoming call indicator lamp 11, the user puts the telephone SU on his ear and pushes the telephone switch 9.
[0039]
If the voice signal input from the transmission / reception circuit 2 includes a signal indicating that the call switch 9 has been pressed, the control / drive circuit 4 communicates with the base station or the like as in the third embodiment. The main body side wireless communication is switched to a state in which communication can be performed by predetermined communication, and is constituted by the main body side antenna 1, the transmission / reception circuit 2, and the control / drive circuit 4 functioning as a communication control unit CC for these The voice signal of the other party of the call and the voice signal of the user are transmitted and received between the device MR and the talker-side radio communication device SR composed of the talker-side antenna 6, the transmission / reception circuit 7 and the control / drive circuit 8. It will be in a state to be.
Even when the call switch 5a of the main unit MU is pushed and operated because the main unit MU is at the user's hand, it is possible to make a call with the other party in the same manner as described above.
[0040]
The usage mode of the telephone set SU at the time of the call, the processing when the call is terminated, and the operation when making a call from the user side of the telephone device PS to the other party of the call are the same as in the third embodiment. Therefore, explanation is omitted.
When the cord L3 of the transmission / reception unit RU is detached from the jack 50, the main body MU can be used as a normal portable telephone device, and a call can be made with the speaker 51 and the microphone 52.
[0041]
In the fourth embodiment, the main body unit MU includes the main body unit housing 30 and the transmission / reception unit RU, but for carrying the main body unit MU, as shown in FIG. A housing case 61 for housing the main body housing 30 and the transmission / reception unit RU is provided.
As shown in FIG. 17, the storage case 61 can be attached to the belt 60. Further, as shown in FIG. 18, the storage case 61 may be provided with a communication device storage unit 62 for storing the communication device SU so that the communication device SU can be stored.
[0042]
[Other Embodiments]
Other embodiments will be listed below.
{Circle around (1)} In each of the embodiments described above, the sound vibration detection device AP is configured to detect the bone conduction sound by the piezoelectric element 15, but may be composed of, for example, a capacitance change type vibration meter.
(2) In each of the above embodiments, the communication device casing 13 that houses the communication device side radio communication device SR is suspended and supported by the signal line 14a. However, the length of the signal line 14a is made sufficiently long. Even when the speaker 11 and the microphone 12 are attached to the ears, the telephone case 13 may be stored in a pocket of a user's clothes.
(3) In the second embodiment described above, a configuration for switching between making a call with the handset HS or making a call with the caller SU depending on whether the handset HS is put on the hook button 31 of the transmission / reception unit RU or not. It may be configured such that a call can be made by both the handset HS and the telephone set SU.
[Brief description of the drawings]
FIG. 1 is an overall configuration diagram of a telephone device according to a first embodiment of the present invention.
FIG. 2 is a block configuration diagram of the telephone device according to the first embodiment of the present invention.
FIG. 3 is a partial cross-sectional view of a main part according to the first embodiment of the present invention.
FIG. 4 is a front view of main parts according to the first embodiment of the present invention.
FIG. 5 is an enlarged cross-sectional view of the audio vibration detection device according to the first embodiment of the present invention.
FIG. 6 is an enlarged cross-sectional view of the piezoelectric element according to the first embodiment of the present invention.
FIG. 7 is a circuit configuration diagram according to the first embodiment of the present invention.
FIG. 8 is a diagram showing a state in which the communication device according to the first embodiment of the present invention is mounted.
FIG. 9 is a diagram showing a state in which the communication device according to the first embodiment of the present invention is mounted.
FIG. 10 is a diagram illustrating names of parts in a human ear.
FIG. 11 is an overall configuration diagram of a telephone device according to a second embodiment of the present invention.
FIG. 12 is a block diagram of a telephone device according to a second embodiment of the present invention.
FIG. 13 is an overall configuration diagram of a telephone device according to a third embodiment of the present invention.
FIG. 14 is a block configuration diagram of a telephone device according to a third embodiment of the present invention.
FIG. 15 is an overall configuration diagram of a telephone device according to a fourth embodiment of the present invention.
FIG. 16 is a block diagram of a main body according to a fourth embodiment of the present invention.
FIG. 17 is a diagram showing a storage state of the telephone device according to the fourth embodiment of the present invention.
FIG. 18 is a diagram illustrating a storage state of the telephone device according to the fourth embodiment of the present invention.
[Explanation of symbols]
AP sound vibration detector
AN transceiver antenna
CC communication control unit
CL communication line
CS call command switch
MR body side wireless communication device
MU main unit
IO Audio signal input / output terminal
RU transceiver unit
SU telephone
SR wireless communication device for talker side
11 Speaker
12 Microphone
13 Telephone housing
14 Housing
14a signal line
21 Housing
23 Clamping member
30 Main unit housing
61 Storage case
62 Telephone compartment

Claims (4)

  A main body that communicates with other telephone devices, a transmission / reception unit configured separately from a main body housing that houses the main body, and transmission / reception of audio signals to / from the main body via the transmission / reception unit A telephone device provided with a telephone that performs
  The main body is
  A communication control unit for communicating with other telephone devices;
  A first connector connected to the communication control unit;
  The transceiver unit is:
  A hook button,
  A second connector connected to the handset;
  A main body side wireless communication device for wireless communication with the telephone,
  The hook button, the first connector, the second connector, and a changeover switch connected to the main body side wireless communication device,
  The telephone is
  A microphone that is worn in contact with the concha cavity of the human ear and detects voice vibration from the vocal cords;
  Speakers,
  A telephone side wireless communication device for communicating with the main body side wireless communication device;
  The changeover switch is
  When the hook button is pressed, the main body unit side wireless communication device is connected to the communication control unit of the main body unit via the first connector,
  A telephone device that connects a second connector connected to the handset to a communication control device of the main body via the first connector when the hook button is not pressed. The call device is provided with a call command switch for supporting the start of a call to the main body,
  The main body unit side wireless communication device and the talker side wireless communication device, when the main body unit receives a call signal from the other party of the call, the start of the call is instructed from the call command switch, The telephone device according to claim 1, wherein the telephone device is configured to start transmission / reception of an audio signal for a call with the other party. The telephone device according to claim 1, wherein the main body portion is constituted by a stationary telephone device. A main unit that communicates with another telephone device is connected to a telephone that has a microphone and a speaker that is mounted in contact with the inside of the concha cavity of the human ear and detects voice vibration from the vocal cords. A transmission / reception unit configured separately from the main body housing that houses the main body,
  A hook button,
  A connector connected to the handset;
  A wireless communication device for wirelessly communicating with the telephone,
  A connector that is connected to the hook button and the connector, connects the wireless communication device to the main body when the hook button is pressed, and connects to the handset when the hook button is not pressed A transmission / reception unit comprising a change-over switch for connecting to the main body.

Images