JP4052907B2 - Wireless headset device for motorcycles - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a two-wheeled vehicle wireless headset device, in particular, a helmet and a device body equipped with a multiple wireless communication device, conversation between two-wheeled passengers, conversation by wireless communication with other vehicles, music from an audio device. The present invention relates to a wireless head device for a two-wheeled vehicle that can perform listening and listening on a mobile phone.
[0002]
[Prior art]
Full-face type helmets that cover the entire wearer's head are widespread in motorcycle helmets for motorcycles, and such full-face type helmets tend to block the sound of the outside world. In addition to the problem that it is difficult to understand the surrounding sounds and conditions while riding, especially during driving, conversations between the driver and passengers are erased by the driving wind, making it difficult to hear and communication. In some cases, attention is concentrated on traffic safety.
[0003]
For this reason, recently, a driver and a passenger's helmet are each provided with a speaker and a microphone, and when the distance between these helmets falls within a predetermined short-range communicable range, It has been proposed to provide a Bluetooth specification wireless communication device that automatically enables two-way audio communication.
[0004]
Bluetooth can operate at many different power levels, among which are 0 dBm level transmit power (eg 1 milliwatt) with a communication range of 10 m and a communication range of 100 m. 20 dBm transmission power is included. This Bluetooth operates at 2.4 GHz, can transmit data at 1 Mbit / s, uses a frequency hopped wideband spectrum with time division duplex, and up to 7 masters Communication can be performed by forming a network called a piconet with one slave.
[0005]
In this way, if a network is formed by the wireless communication device of the helmet of the driver and the passenger, when the driver and the passenger wear the respective helmets and sit on the driver's seat and the rear seat of the motorcycle, both of these helmets Enters a predetermined short-range communicable range, and both wireless communication apparatuses can automatically communicate. And when both have conversation, since these audio | voices are radio | wirelessly communicated between both helmets by a radio | wireless communication apparatus, the conversation between passengers can be performed.
[0006]
In addition, the driver can make a phone call with a Bluetooth-compatible mobile phone using the above-described wireless communication device, and further, the driver can be provided by providing the wireless communication device as described above in the set device body on the vehicle side. It is also possible to listen to music from an audio device connected to the set device body and to perform wireless communication with other vehicles.
[0007]
[Patent Document 1]
JP 2001-148657 A
[Patent Document 2]
JP 2001-280982 A
[0008]
[Problems to be solved by the invention]
However, in a communication system compliant with this Bluetooth communication standard, a communication device that attempted to connect to another communication device (establishing a communication line) acted as a master device, while another communication device tried to connect. A communication device is defined so as to act as a slave device, and a communication device acting as a master device can connect up to seven communication devices acting as slave devices. When used in a two-wheeled vehicle wireless headset device, for example, if the wireless communication device of the driver's helmet acts as a master device, the driver can talk to the passenger and play music through the set device body. You can listen to and talk with other vehicles through the wireless communication device of the set device body. Nosha can be performed by a conversation with the driver, but there is a problem that can not listen to music from the set apparatus main body.
[0009]
In addition, there is a problem that when the mobile phone rings during the conversation between the driver and the passenger, or when there is an intercom request from another vehicle, the driver does not notice it.
[0010]
The present invention has been made in view of the above problems, and a passenger of a motorcycle can listen to music from the main body of the set device simultaneously with the driver, and the driver can receive an incoming call from a mobile phone or another vehicle. An object of the present invention is to provide a wireless headset device for a motorcycle that can recognize an intercom request.
[0011]
[Means for Solving the Problems]
In order to achieve the above object, the headset device (1) according to the present invention is disposed in each of the first headset, the second headset, and the main body of the set device, and these intervals are set in advance. In a headset device equipped with a wireless communication device that enables bidirectional wireless communication by forming a network between them when entering a predetermined near field communication range, The set device body includes two wireless communication devices, The wireless communication device of the first headset functions as a master, and at least of the set device body One The wireless communication device and the wireless communication device of the second headset constitute a first network as a slave, and the wireless communication device of the second headset also serves as a master, and wireless communication of the second headset Of the device and at least the set device body The other A second network is configured with the wireless communication device.
[0012]
According to the Bluetooth communication standard, one master and up to seven slaves can form a network called a piconet to communicate, and a single wireless communication device can communicate with a single piconet master or slave. It can also serve as a piconet master / slave, and a plurality of piconets can be gathered to form a scatternet. A headset device (1) according to the present invention operates a wireless communication device of a second headset as a master and a slave, uses the first headset as a master, and sets the main body of the set device and the second headset as a slave. And receiving a music signal from the set device main body via the second headset by configuring two networks: a network to be used and a network in which the second headset is a master and the set device main body is a slave. Can listen to music.
[0013]
In the headset device (2) according to the present invention, when the first headset and / or the second headset enters the short-range communication possible range in the headset device (1), A means for detecting an incoming call of a mobile phone provided with a wireless communication device capable of two-way wireless communication is provided, and a conversation can be automatically performed on the mobile phone when the mobile phone receives an incoming call. .
[0014]
According to the headset device (2), since the first headset or the second headset can detect the incoming call of the mobile phone, when there is an incoming call of the mobile phone, listening to music or talking Even so, it is possible to make a call by recognizing the incoming call of the mobile phone.
[0015]
Furthermore, the headset device (3) according to the present invention includes a wireless communication device that automatically enables bidirectional wireless communication when the headset device (1) enters the short-range communication range. The headset device (4) according to the present invention is characterized in that music from a portable audio device can be listened to by the first headset and / or the second headset. Each of the first and second headsets is provided with an MP3 decoder.
[0016]
According to the headset devices (3) and (4), the music signal compressed in the MP3 signal format transmitted from the portable audio device or the set device main body is reproduced as a music signal by the MP3 decoder to listen to the music. it can.
[0017]
Furthermore, the headset device (5) according to the present invention is the headset device (1), wherein the set device body includes a communication device that performs wireless communication with a set device body of another vehicle, and the first head. The set has means for detecting the presence or absence of a wireless communication signal from the set apparatus main body, and is capable of having a conversation by wireless communication with another vehicle.
[0018]
According to the headset device (5), since the first headset detects a wireless communication signal from the set device body, it is possible to know a request for wireless communication from another vehicle. You can have a conversation with the vehicle.
[0019]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of a wireless headset device for a motorcycle according to the present invention will be described below with reference to the drawings. 1 is a schematic configuration diagram of the entire motorcycle wireless headset device, FIG. 2 is a diagram showing the structure of a helmet for a driver and a passenger, and FIG. 3 is a block diagram of the headset 1 with a built-in helmet for a driver. FIG. 5 is a block diagram of the passenger helmet built-in headset 2, and FIG. 5 is a block diagram of the set device body 3.
[0020]
As shown in FIG. 1, a motorcycle wireless headset device includes a headset 1 built in a motorcycle helmet 6, a headset 2 built in a passenger helmet 7, and a motorcycle driver. It comprises a set device main body 3 mounted in the vicinity of the seat, mobile phones 4 and 4 ', a set device main body 3' mounted on another two-wheeled vehicle, a portable audio device 5 and the like. Each of these devices is equipped with a Bluetooth device, which is a communication device for short-range communication, and can communicate with each other to form a network called a Bluetooth network. Bluetooth devices can perform mutual authentication processing when they detect a Bluetooth device that can communicate within a transferable distance range, and can exchange data with each other when the authentication processing is successful. For this reason, in order to enable mutual communication between these devices via the Bluetooth network, it is necessary for the devices to register mutual authentication information in advance.
[0021]
As shown in FIG. 2, the driver's helmet has, for example, a headset 1 embedded in the back of the full-face helmet 6 and a microphone 8 connected to the headset 1 facing the driver's mouth. And a pair of left and right speakers 9 connected to the headset 1 are provided at positions substantially opposite to both ears of the driver. The passenger's helmet 7 has a similar structure.
[0022]
Next, details of the headset 1 built in the driver's helmet 6 will be described with reference to FIG. The headset 1 includes a Bluetooth module 11, a control device 12, an audio unit 13, an MP3 decoder 14, and amplifier circuits (AMP) 15 and 16.
[0023]
The Bluetooth module 11 is automatically activated when another Bluetooth module provided in the passenger's headset 2 or the set device body 3 or the mobile phone 4 enters a predetermined short-range communication range. When it is in an on state, that is, in a communicable state and deviates from a predetermined short range communicable range, it automatically enters an off state, that is, a communication stopped state. The Bluetooth module 11 inputs and outputs signals to and from the passenger's headset 2, the set device body 3, and the mobile phone 4 in a time-sharing manner under control of the control device 12, and signals from other devices to the control device 12. input.
[0024]
The control device 12 is composed of a computer system including a CPU, ROM, RAM, and other devices. The control device 12 determines which device needs to be communicated based on a signal from the Bluetooth module 11 or a signal from the audio unit 13 and is necessary. Communication with the device is performed via the Bluetooth module 11 and signals are input / output to / from the audio unit 13 and the MP3 decoder 14.
[0025]
The audio unit 13 converts the audio signal from the microphone 8 input via the AMP 15 into a digital signal and inputs the digital signal to the control device 12, converts the digital signal from the control device 12 into an audio signal, and transmits the audio signal via the AMP 16. Output to the speaker 9. Also, the MP3 decoder 14 decodes and reproduces digital sound data corresponding to sound signals such as sound and music compressed in MP3 format from the control device 12 into uncompressed digital sound data, and outputs it to the AMP 16.
[0026]
On the other hand, as shown in FIG. 4, the passenger headset 2 includes a Bluetooth module 21, a control device 22, an audio unit 23, an MP3 decoder 24, and amplifier circuits (AMP) 25 and 26, as with the driver headset 1. In addition, a music listening switch 27 is provided. The music listening switch 27 may be a switch fixed to the headset 2, or may be a switch separated from the headset 2 and connected to the headset 2 by a cord. When the switch 27 is pressed, the control device 22 receives the passenger's request for listening to music, and communicates with the set device body 3 via the Bluetooth module 21 to receive the music signal. Since the other devices of the passenger headset 2 have the same functions as the driver headset 1, the description thereof is omitted.
[0027]
Further, as shown in FIG. 5, the set device body 3 includes two sets of Bluetooth modules 31 and 32 and a control device 33, as well as an audio device 34 such as a radio, MD, CD, and other wireless headset devices for two-wheelers. A communication device 35 that performs wireless communication with the set device main body 3 ′ is provided.
[0028]
The control device 33 is constituted by a computer system including a CPU, ROM, RAM, and other devices. Which device is selected from a signal from the communication device 35, a power-on signal of the audio device 34, a reception signal of the Bluetooth modules 31 and 32, or the like. It is determined whether input / output of a signal is necessary, communicates with the Bluetooth modules 11 and 21 via the Bluetooth modules 31 and 32, and exchanges input / output signals with necessary devices between the headsets 1 and 2. At the same time, signals are input and output between the audio device 34 and the communication device 35.
[0029]
The Bluetooth modules 31 and 32 are the same as the Bluetooth module 11 described above, and when authentication is established with the Bluetooth modules 11 and 21 of the headsets 1 and 2, 21 transmits user interface (UI) data for controlling itself. The audio device 34 is composed of radio, MD, CD, and the like. When the digital sound data corresponding to sound signals such as voice and music is input from the audio device 34, the control device 33 converts the digital sound data into the MP3 format. Are compressed and transmitted to the Bluetooth modules 31 and 32, and a music transmission signal is output.
[0030]
The communication device 35 performs wireless communication with the communication device of the set device main body 3 ′ of the other two-wheeled wireless headset device, and a communication signal is input from the set device main body 3 ′ of the other two-wheeled wireless headset device. Then, the communication signal is converted into a digital signal and input to the control device 33, and the digital signal from the control device 33 is processed and transmitted to the outside. When a communication signal is input from the communication device 35, the control device 33 transmits communication information and a communication state signal with the set device main body 3 ′ to the headset 1 via the Bluetooth module 31.
[0031]
In addition, the mobile phones 4 and 4 'have a so-called hands-free function that automatically connects after an incoming call without using a hand, enables a call, and automatically disconnects when the call ends. Can communicate with the Bluetooth units 11 and 21 of the driver headsets 1 and 2, and when authentication is established between the headsets 1 and 2, Send user interface (UI) data for control. The portable audio device 5 such as a compact disc player (CD), mini disc (MD), and MP3 also includes a Bluetooth unit, communicates with the Bluetooth unit 11 of the driver headset 1, and communicates with the headset 1. Similarly, when authentication is established, user interface (UI) data for controlling itself is transmitted to the headset 1.
[0032]
Next, the operation of the two-wheeled wireless headset device configured as described above will be described with reference to the block diagrams of FIGS. 3 to 5, the network configuration diagram of FIG. 6, the timing chart of FIG. 7, and the flowcharts of FIGS. I will explain.
[0033]
As shown in the network configuration diagram of FIG. 6, the Bluetooth module of the headset 2 serves as a master and a slave, the Bluetooth module 11 of the headset 1 is the master, the Bluetooth module 31 of the set device body 3, and the Bluetooth of the mobile phone 4. The module, the Bluetooth module of the audio device 5 and the Bluetooth module 21 of the headset 2 form one network, and the Bluetooth module 21 of the headset 2 is the master, the Bluetooth module 32 of the set device body 3 and the mobile phone 4 ′. Bluetooth modules form another network that functions as a slave.
[0034]
When the driver straddles the driving seat of the motorcycle and turns on the power of the headset 1 for the driver, the Bluetooth module 11 of the headset 1 tries to connect to another Bluetooth module. When the Bluetooth device detects a Bluetooth device that can communicate within a transferable distance range, the Bluetooth devices mutually authenticate each other. The control device 12 manages a list of devices constituting the Bluetooth network. When authentication is successful, the newly detected device is registered in the list of devices. When a device added to the list is out of the range, the control device 12 deletes the device from the held list. With this process, the control device 12 recognizes that only the devices registered in the list can communicate via the Bluetooth network. Note that even if devices exist within a mutual range, if mutual authentication processing is not successful, a device to be added to the Bluetooth network is not detected.
[0035]
When the connection between the Bluetooth module 31 of the set device body 3 and the Bluetooth module of the mobile phone 4 is established, the control device 12 receives the UI data supplied from the set device body 3 and the mobile phone 4 and enters the device list. As a result, the Bluetooth module 11 of the headset 1 operates as a master device, while the Bluetooth modules on the set device body 3 side and the mobile phone 4 side operate as slave devices.
[0036]
Thereafter, when the passenger sits on the rear seat of the motorcycle, the Bluetooth module 21 of the passenger's headset 2 and the Bluetooth module 11 of the driver's headset 1 are automatically connected, and the passenger's headset is connected. Two Bluetooth modules 21 are also connected as slave devices. In this state, as shown in the timing chart of FIG. 7, the Bluetooth module 11 side of the driver headset 1 is a master, the headset 2 side, the set device main body 3 side, and the mobile phone 4 side are slaves 2 to 4. Multiple wireless communication is performed, and the master communicates with slaves 2 to 4 in a time-sharing manner in a time slot having a period from time t1 to t2, so that the master can communicate with slaves 2 to 4 in parallel. . If there is also a portable audio device 5, this portable audio device 5 is also connected as a slave device of a network having the Bluetooth module 11 as a master.
[0037]
On the other hand, the control device 22 of the passenger's headset 2 similarly manages a list of devices constituting the Bluetooth network, and the connection with the Bluetooth module 32 of the set device body 3 and the Bluetooth module of the mobile phone 4 'is established. Then, the control device 22 receives the UI data supplied from the set device main body 3 and the mobile phone 4 ′ and registers it in the device list, whereby the Bluetooth module 21 of the headset 2 operates as a master device, On the other hand, the Bluetooth module 32 on the set device body 3 side and the Bluetooth module on the mobile phone 4 'side operate as slave devices.
[0038]
In the headset 1, as shown in the flowchart of FIG. 8, the control device 12 constantly monitors inputs from the Bluetooth module 11 and the audio unit 13 and determines devices to communicate with. That is, first, the control device 12 determines whether there is a signal from the mobile phone 4 based on the output from the Bluetooth module 11 (step 1). When there is a signal from the mobile phone 4, the control device 12 communicates with the mobile phone 4 via the Bluetooth module 11 and inputs / outputs a signal to / from the audio unit 13 (step 2). Then, the control device 12 always monitors the input / output of signals to / from the audio unit 13, determines whether there is no input / output of signals to / from the audio unit 13 for a certain time (step 3), and continues to input / output signals. If there is no signal input / output with the audio unit 13 for a certain period of time, the process returns to step 1.
[0039]
When there is no signal from the mobile phone 4, the control device 12 determines whether or not there is a communication status signal from the set device body 3 (step 4). If there is a communication status signal, the control device 12 communicates with the set device main body 3 via the Bluetooth module 11 and inputs / outputs a signal to / from the audio unit 13 (step 5). Next, the control device 12 determines whether or not there is a signal from the mobile phone 4 based on the output from the Bluetooth module 11 (step 6). If there is a signal from the mobile phone 4, the process returns to step 2, and if there is no signal from the mobile phone 4, the control device 12 determines whether or not there is a signal input / output with the audio unit 13 for a certain period of time ( Step 7) If the signal input / output is continued, the process returns to Step 5 and returns to Step 1 when the signal input / output with the audio unit 13 is stopped for a certain period of time.
[0040]
When there is no communication status signal from the set device main body 3, the control device 12 determines whether or not there is a passenger's voice signal from the headset 2 (step 8). When there is a passenger voice signal from the headset 2, the control device 12 communicates with the headset 2 via the Bluetooth module 11 and inputs / outputs a signal to / from the voice unit 13 (step 9). Next, the control device 12 determines whether there is a signal from the mobile phone 4 based on the output from the Bluetooth module 11 (step 10). If there is a signal from the mobile phone 4, the control device 12 returns to step 2 to If there is no signal from the telephone 4, it is determined whether or not there is a communication status signal from the set device body 3 (step 11). If there is a communication status signal from the set device main body 3, the process returns to step 5, and if there is no communication status signal from the set device main body 3, is there a signal input / output with the audio unit 13 for a predetermined time or more? (Step 12), if the signal input / output is continued, the process returns to step 9, and if the signal input / output to / from the audio unit 13 has been stopped for a certain period of time, the process returns to step 1.
[0041]
Furthermore, when there is no passenger audio | voice signal from the headset 2, the control apparatus 12 discriminate | determines whether there exists a signal from the audio | voice unit 13 (step 13). If there is a signal from the voice unit 13, the control device 12 determines that a request for conversation with the passenger is made, and moves to step 9, where the conversation with the passenger is performed in the same manner. If there is no signal from the audio unit 13, the control device 12 determines whether there is a music transmission signal from the set device body 3 (step 14). When there is a music transmission signal, the control device 12 communicates with the set device main body 3 via the Bluetooth module 11 and digital sound data corresponding to sound signals such as voice and music compressed in the MP3 format by the MP3 decoder 14. Is output (step 15).
[0042]
Next, the control device 12 determines whether or not there is a signal from the mobile phone 4 based on the output from the Bluetooth module 11 (step 16), and if there is a signal from the mobile phone 4, returns to step 2 to If there is no signal from the telephone 4, it is determined whether or not there is a communication status signal from the set device body 3 (step 17). If there is a communication status signal from the set device main body 3, the process returns to step 5, and if there is no communication status signal from the set device main body 3, the control device 12 sends the passenger's voice signal from the headset 2. It is determined whether or not there is (step 18). If there is a passenger audio signal from the headset 2, the process proceeds to step 9, and if there is no passenger audio signal from the headset 2, the control device 12 determines whether or not there is a signal from the audio unit 13. A determination is made (step 19). When there is a signal from the audio unit 13, the process proceeds to step 9. If there is no signal from the audio unit 13, the control device 12 determines whether or not the music transmission signal from the set device body 3 has ended (step 20). If the music transmission signal has not ended, the process returns to step 15. If the music transmission signal has ended, the process returns to step 1 to newly determine the presence or absence of a signal from the mobile phone 4.
[0043]
In this way, when the conversation on the mobile phone is given the highest priority and the conversation on the mobile phone is not prioritized, the communication with other motorcycles and the conversation with the passenger are prioritized. When listening to music and receiving a mobile phone call, when there is communication from another motorcycle via a communication device, or when a passenger talks, the music is cut off and the conversation is made It can be performed.
[0044]
On the other hand, in the passenger's headset 2, as shown in the flowchart of FIG. 9, the control device 12 monitors the inputs from the Bluetooth module 21, the audio unit 23, and the music listening switch 27 to determine a device to communicate with. is doing. That is, first, the control device 22 determines whether or not there is a signal from the mobile phone 4 ′ based on the output from the Bluetooth module 21 (step 21). When there is a signal from the mobile phone 4 ′, the control device 22 communicates with the mobile phone 4 ′ via the Bluetooth module 21 and inputs / outputs a signal to / from the audio unit 23 (step 22). Then, the control device 22 always monitors the input / output of signals with the audio unit 23, determines whether there is no input / output of signals with the audio unit 13 for a certain time (step 23), and the input / output of signals is continued. If there is no signal input / output with the audio unit 23 for a certain period of time, the process returns to step 21.
[0045]
If there is no signal from the mobile phone 4 ′, the control device 22 determines whether or not there is a driver's voice signal from the headset 1 (step 24). If there is a driver voice signal from the headset 1, the control device 22 communicates with the headset 1 via the Bluetooth module 21 and inputs / outputs a signal to / from the voice unit 23 (step 25). Next, the control device 22 determines whether or not there is a signal from the mobile phone 4 ′ based on the output from the Bluetooth module 21 (step 26). If there is a signal from the mobile phone 4 ′, the control device 22 returns to step 22. If there is no signal from the mobile phone 4 ′, it is determined whether or not there is a signal input / output with the audio unit 13 for a certain time or more (step 27). Returning to step 25, when there is no signal input / output with the audio unit 13 for a certain period of time, the process returns to step 21.
[0046]
Further, when there is no driver voice signal from the headset 1, the control device 22 determines whether or not there is a signal from the voice unit 23 (step 28). If there is a signal from the voice unit 23, the control device 22 determines that a request for conversation with the driver is made and moves to step 25, and similarly, conversation with the driver is performed. If there is no signal from the audio unit 23, the control device 22 determines whether or not the music listening switch 27 is on (step 29). When the music listening switch 27 is on, the control device 22 transmits a music listening switch on signal to the set device body 3 via the Bluetooth module 21 and is compressed in the MP3 format sent from the set device body 3. Digital sound data corresponding to a sound signal such as voice or music is output to the MP3 decoder 24 (step 30).
[0047]
Next, the control device 22 determines whether or not there is a signal from the mobile phone 4 ′ based on the output from the Bluetooth module 21 (step 31), and returns to step 22 if there is a signal from the mobile phone 4 ′. If there is no signal from the mobile phone 4 ', it is determined whether or not there is a driver voice signal from the headset 1 (step 32). If there is a driver voice signal from the headset 1, the process proceeds to step 25, and if there is no driver voice signal from the headset 1, the control device 22 determines whether there is a signal from the voice unit 23. Is determined (step 33). If there is a signal from the audio unit 23, the process proceeds to step 25. If there is no signal from the audio unit 23, the control device 12 determines whether or not the music listening switch is off (step 34). If the music listening switch 27 remains on, the process returns to step 30, and if the music listening switch 27 is off, the process returns to step 21.
[0048]
Further, in the set device main body 3, as shown in the flowchart of FIG. 10, the control device 33 monitors signals from the Bluetooth modules 31, 32, a communication signal from the communication device 35, a power-on signal of the audio device 34, and the like. The device determines which device needs to input / output signals and communicates with the Bluetooth modules 11 and 21 via the Bluetooth modules 31 and 32 to transfer the input / output signals to and from the required devices with the headsets 1 and 2. Between.
[0049]
That is, first, the control device 33 determines whether or not there is a communication input from the communication device 35 (step 41). When there is a communication input, the control device 33 communicates with the headset 1 via the Bluetooth module 31, and the headset 1 communicates with a communication status signal and communication information with the set device main body 3 'of another two-wheeled wireless headset device. And communication information from the headset 1 is output to the communication device 35 (step 42). Next, the control device 33 determines whether or not the communication input has ended (step 43). If the communication input has not ended, the control device 33 returns to step 42. If the communication input has ended, the control device 33 returns to step 41. .
[0050]
When there is no communication input from the communication device 35, the control device 33 determines whether or not there is a power-on signal for the audio device 34 (step 44). When the power of the audio device 34 is turned on, the control device 33 communicates with the headset 1 via the Bluetooth module 31 and outputs digital sound data corresponding to sound signals such as voice and music from the audio device 34. It is compressed in the MP3 format and sent to the Bluetooth module 31, and a music sending signal is also sent (step 45).
[0051]
Next, the control device 33 determines whether or not the passenger's music listening switch 27 is on based on a signal from the Bluetooth module 21 of the headset 2 (step 46). When the passenger's music listening switch 27 is on, the control device 33 communicates with the headset 2 via the Bluetooth module 32 and compresses sound signals such as voice and music from the audio device 34 in the MP3 format. Data is also sent to the Bluetooth module 32 (step 47). When the passenger's music listening switch 27 is off, the control device 33 determines whether or not there is a communication input from the communication device 35 (step 48), and if there is a communication input from the communication device 35. Returning to step 42, if there is no communication input from the communication device 35, it is determined whether or not the audio device 34 is powered off (step 49). If the power of the audio device 34 remains on, the process returns to step 45. If the power of the audio device 34 is off, the process returns to step 41.
[0052]
Next, the operation when the driver listens to music or has a conversation with a passenger will be described.
[0053]
When the driver turns on the power of the audio device 34 of the set device body 3 in a state where there is no communication with other devices, the control device 33 communicates with the headset 1 via the Bluetooth module 31 and the audio device 34. The digital sound data corresponding to the sound signal such as voice, music, etc. is compressed in the MP3 format and sent to the headset 1 via the Bluetooth module 31, and the music sending signal is also sent. On the other hand, in the headset 1, the control device 12 detects the music transmission signal, and the digital signal corresponding to the sound signal such as music compressed in the MP3 format from the set device body 3 received via the Bluetooth module 11. The sound data is output to the MP3 decoder 14, and the MP3 decoder 14 decodes and reproduces the digital sound data corresponding to the sound signal such as music compressed in the MP3 format into the uncompressed digital sound data, and the speaker via the AMP 16 Output to 9. As a result, the driver can listen to music from the set device body 3.
[0054]
Further, when the driver's voice is input to the microphone 8 in a state where there is no communication with other devices or the driver is listening to music, the voice is controlled via the AMP 15 and the voice unit 13. The control device 12 determines that the voice input is a request for conversation with the passenger, communicates with the headset 2 via the Bluetooth module 11, and inputs / outputs a signal to / from the voice unit 13. Do. Accordingly, a signal transmitted from the Bluetooth module 11 with a radio wave of a predetermined frequency is received by the Bluetooth module 21 of the passenger's headset 2, converted into an audio signal by the audio unit 23, and transmitted from the speaker 9 of the passenger's helmet 7. Is output. Similarly, the passenger's voice is input to the microphone 8 of the passenger's helmet 7, and the voice is converted into a digital signal by the voice unit 23 and transmitted from the Bluetooth module 21 as a radio wave of a predetermined frequency. Since this signal is converted into an audio signal by the audio unit 13 via the control device 12 and then output from the speaker 9 via the AMP 16, the driver and the passenger have a conversation. be able to.
[0055]
When the passenger speaks, the passenger's voice signal is input from the Bluetooth module 21 of the headset 2 to the Bluetooth module 11 of the headset 1, so that the driver and the passenger have a conversation in the same manner as described above. It can be carried out.
[0056]
Furthermore, in the state where there is no communication with other devices, the driver is listening to music, or is talking with the passenger, a communication signal is sent from the set device body 3 ′ of another two-wheeled wireless headset device. Is input to the control device 33. The control device 33 communicates with the headset 1 via the Bluetooth module 31, and the communication status signal and other two-wheeled vehicles are transmitted to the headset 1. Communication information with the set device main body 3 ′ of the wireless headset device is transmitted. Thereby, in the headset 1, the control device 12 detects the communication state signal, inputs / outputs a signal to / from the sound unit 13, and the sound from the set device body 3 ′ of the other wireless headset device for two-wheeled vehicles. From the speaker 9 via the audio unit 13 and the AMP 16, and the driver's voice from the microphone 8 input to the control device 12 via the AMP 15 and the audio unit 13 is transmitted to the set device body 3 via the Bluetooth module 11. Sent. The driver's voice signal is sent to the communication device 35 via the Bluetooth module 31 and the control device 33, and is transmitted from the communication device 35 to the set device body 3 'of the other two-wheeled wireless headset device. You can talk with a motorcycle driver.
[0057]
And if there is an incoming call to the mobile phone 4 when there is no communication with another device, the driver is listening to music, or is talking to a passenger or another two-wheeler driver, The telephone 4 automatically connects after an incoming call to enable a call, and transmits an incoming signal and a conversation signal to the Bluetooth module 11 of the headset 1 via the Bluetooth module of the mobile phone 4. On the other hand, in the headset 1, the control device 12 detects an incoming signal from the mobile phone 4, and plays the audio from the mobile phone 4 from the speaker 9 via the audio unit 13 and the AMP 16, and the AMP 15 and the audio unit 13. The voice of the driver from the microphone 8 input to the control device 12 via the Bluetooth device 11 is transmitted to the mobile phone 4 via the Bluetooth module 11. As a result, the driver can have a conversation with the mobile phone. When the call ends, the mobile phone 4 is automatically disconnected.
[0058]
As described above, when the mobile phone 4 receives an incoming call, the mobile phone 4 is automatically connected by a hands-free function to enable a call, and the headset receives the incoming signal and the voice signal of the call via the Bluetooth module. Since it is transmitted to one Bluetooth module, the driver can respond to the mobile phone even when the driver is listening to music or talking with a passenger.
[0059]
On the other hand, when the passenger's headset 2 is not communicating with other devices and the passenger turns on the music listening switch 27 of the headset 2, the control device 22 of the headset 2 passes through the Bluetooth module 21. It communicates with the Bluetooth module 32 of the set device body 3 and transmits a music listening switch-on signal to the set device body 3. At this time, if the power of the audio device 34 of the set device main body 3 is turned on, the control device 33 communicates with the headset 2 via the Bluetooth module 32 and the sound from the audio device 34 such as sound, music, etc. Digital sound data corresponding to the signal is compressed in the MP3 format and sent to the headset 2 via the Bluetooth module 32. Accordingly, in the headset 2, digital sound data corresponding to a sound signal such as music compressed in the MP3 format from the set device body 3 received by the control device 22 is output to the MP3 decoder 24, and the MP3 decoder 24 outputs the MP3. The digital sound data corresponding to the sound signal such as music compressed in the format is decoded and reproduced as uncompressed digital sound data, and is output to the speaker 9 via the AMP 26. I can listen to music.
[0060]
In addition, when the passenger's voice is input to the microphone 8 in a state where there is no communication with other devices or the passenger is listening to music, the voice is controlled via the AMP 25 and the voice unit 23. The control device 22 determines that the voice input is a request for a conversation with the driver, communicates with the headset 1 via the Bluetooth module 21, and inputs / outputs a signal to / from the voice unit 13. The driver and passengers can have a conversation.
[0061]
When the driver utters a voice, the driver's voice signal is input from the Bluetooth module 11 of the headset 1 to the Bluetooth module 21 of the headset 2, so that the driver and the passenger have a conversation in the same manner as described above. It can be carried out.
[0062]
Furthermore, when there is an incoming call to the mobile phone 4 'when there is no communication with another device, the passenger is listening to music, or talking with the driver, the mobile phone 4' After that, it is automatically connected to make a call, and an incoming call signal and a conversation signal are transmitted to the Bluetooth module 21 of the headset 2 via the Bluetooth module of the mobile phone 4 ′. On the other hand, in the headset 2, the control device 22 detects an incoming signal from the mobile phone 4 ′ and plays the audio from the mobile phone 4 ′ from the speaker 9 through the audio unit 23 and AMP 26, The passenger's voice from the microphone 8 input to the control device 22 through the terminal 23 is transmitted to the mobile phone 4 'through the Bluetooth module 21, so that the passenger can have a conversation with the mobile phone.
[0063]
Thus, like the driver, when the mobile phone 4 ′ receives an incoming call, the mobile phone 4 ′ is automatically connected by the hands-free function to enable a call, and through the Bluetooth module, an incoming signal and Since the voice signal of the call is transmitted to the Bluetooth module of the headset 2, the passenger can respond to the mobile phone even when the passenger is listening to music or talking to the driver.
[0064]
In the above-described embodiment, an example in which two Bluetooth modules are provided in the set device body 3 has been described. However, two network modules each having the Bluetooth modules of the driver headset 1 and the passenger headset 2 as masters are used. It is also possible to use a single Bluetooth module as a slave.
[0065]
In the above embodiment, the example in which the portable audio device 5 is connected as a slave device to the network having the Bluetooth module of the driver's headset 1 as a master has been described, but the portable audio device is different from the portable audio device 5. Can be prepared and connected to a network having the Bluetooth module of the passenger headset 2 as a master.
[0066]
【The invention's effect】
As described above in detail, the headset device of the present invention operates the wireless communication device of the second headset as a master and a slave, uses the first headset as a master, and sets the main body and the second headset. By configuring the two networks, the network having the slave as the slave and the network having the second headset as the master and the set device body as the slave, the music signal from the set device body can be transmitted via the second headset. Can receive and listen to music.
[0067]
In addition, a mobile phone equipped with a wireless communication device that automatically enables two-way wireless communication when entering the short-range communication range is prepared, and the mobile phone is provided in the first headset and the second headset. If the means for detecting the incoming call is provided, it is possible to make a call by recognizing the incoming call of the mobile phone even when listening to music or during a conversation when the incoming call of the mobile phone is received. In addition, if a portable audio device having a wireless communication device that automatically enables two-way wireless communication when a short-range communication range is entered, music from the portable audio device can be transmitted to the first headset. You can listen with the second headset.
[0068]
Furthermore, a communication device for performing wireless communication with a set device body of another vehicle is provided in the set device body of the headset device of the present invention, and means for detecting the presence or absence of a wireless communication signal from the set device body in the first headset Since the first headset detects a wireless communication signal from the set device main body, the wireless communication request from another vehicle is known even when listening to music through the first headset. Can talk to other vehicles.
[Brief description of the drawings]
FIG. 1 is a schematic configuration diagram of an entire two-wheeled vehicle wireless headset device according to an embodiment of the present invention.
FIG. 2 is a diagram showing a structure of a helmet for a driver and a passenger of the two-wheeled vehicle wireless headset device of FIG. 1;
3 is a block diagram of a headset built into a driver's helmet of the two-wheeled vehicle wireless headset device of FIG. 1. FIG.
4 is a block diagram of a headset built in the riding helmet of the two-wheeled vehicle wireless headset device of FIG. 1. FIG.
5 is a block diagram of a set device body of the two-wheeled vehicle wireless headset device of FIG. 1. FIG.
6 is a network configuration diagram of the motorcycle wireless headset device of FIG. 1. FIG.
Fig. 7 is a diagram showing a network timing chart of the two-wheeled vehicle wireless headset device of Fig. 1;
FIG. 8 is a flowchart for explaining the operation of the headset built in the driver's helmet.
FIG. 9 is a flowchart for explaining the operation of the headset built in the passenger helmet.
FIG. 10 is a flowchart for explaining the operation of the setting apparatus main body.
[Explanation of symbols]
1, 2 Headset
3, 3 'set device body
4, 4 'mobile phone
5 Portable audio equipment
6, 7 Helmet
8 Microphone
9 Speaker
11, 21, 31, 32 Bluetooth module
12, 22, 33 Control device
13, 23 Audio unit
14, 24 MP3 decoder
15, 16, 25, 26 Amplifier circuit (AMP)
27 Music listening switch
34 Audio equipment
35 Communication equipment

Claims (5)

A network is formed between the first headset, the second headset, and the main body of the set device when these intervals fall within a predetermined short-range communicable range. In a headset device including a wireless communication device that enables bidirectional wireless communication,
The set device body includes two wireless communication devices,
The wireless communication device of the first headset functions as a master, and at least one wireless communication device of the set device main body, the wireless communication device of the second headset constitutes a first network as a slave, and The wireless communication device of the second headset also serves as a master, and a second network is configured by the wireless communication device of the second headset and at least the other wireless communication device of the set device main body. Headset device. Means for detecting an incoming call of a mobile phone provided with a wireless communication device capable of two-way wireless communication when the first headset and / or the second headset is within a short-range communication range. The headset device according to claim 1, wherein a conversation can be automatically performed on the mobile phone when an incoming call is received by the mobile phone.   The first headset and / or the second headset for music from a portable audio device equipped with a wireless communication device that automatically enables two-way wireless communication when entering the short-range communication range. The headset device according to claim 1, wherein the headset device can be listened to. The wireless headset device for a motorcycle according to claim 3, wherein each of the first and second headsets includes an MP3 decoder. The set device body includes a communication device that wirelessly communicates with the set device body of another vehicle, and the first headset includes means for detecting the presence or absence of a wireless communication signal from the set device body, The headset device according to claim 1, wherein the headset device can perform a conversation with another vehicle by wireless communication.

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