JP4121681B2 - Wireless microphone, transmitter and transmitter / receiver - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a wireless microphone, a transmission device to which a microphone with a cord is attached, and a transmission / reception device that performs communication with the wireless microphone.
[0002]
[Prior art]
Wireless microphones are widely used in classrooms at various schools including universities.
As an example of a communication system using a wireless microphone, there is a system in which a receiving device is provided for each classroom and a wireless microphone is assigned to each classroom. That is, in this communication system, a receiving device and a wireless microphone are used in a one-to-one correspondence.
[0003]
Also, there is a type in which a cord connector of a tie pin type microphone is attached to a mounting portion of a transmission device, and the transmission device and the tie pin type microphone are used together as a wireless microphone.
In the communication system in this case, a receiving device is provided for each classroom, a transmitting device is assigned to each classroom, and the receiving device and the transmitting device are used in a one-to-one correspondence.
[0004]
[Problems to be solved by the invention]
In the communication system described above, a wireless microphone or a transmission device that can be used for each classroom is determined. For this reason, the lecturer needs to replace the wireless microphone or the transmission device for each classroom where the lecture is given, which is not convenient.
A first object of the present invention is to improve the usability of a wireless microphone, and a second object of the present invention is to provide a transmission / reception apparatus capable of wireless communication with the wireless microphone.
A third object of the present invention is to provide a transmission device to which a cord connector of a corded microphone is attached, and to improve the usability of a wireless microphone that combines the transmission device and the corded microphone.
[0005]
[Means for Solving the Problems]
According to the present invention, a wireless microphone connected to a receiving device in a wireless manner,
Microphone capsule,
A mounting part to which a cord connector of a corded microphone is mounted;
When the cord connector is attached to the attachment portion, an audio signal input to the corded microphone is selected, and when the cord connector is not attached to the attachment portion, it is input to the microphone capsule. Switching means for selecting an audio signal;
Transmitting means for transmitting the audio signal selected by the switching means to the receiving device as a radio wave ;
Receiving means for receiving a channel setting signal indicating one wireless channel among a plurality of wireless channels provided in advance, transmitted as an infrared light signal from the receiving device that has received the transmitted audio signal ;
The transmission means transmits the audio signal selected by the switching means on the radio channel indicated by the channel setting signal received by the reception means as a radio wave to the reception device .
A wireless microphone is provided.
[0006]
Preferably, the apparatus further includes an operation switch, and the reception unit receives the channel setting signal from the transmission / reception device when the operation switch is set from an off state to an on state, and the transmission unit includes the transmission unit The audio signal selected by the switching means is transmitted as a radio wave to the receiving apparatus on the radio channel indicated by the channel setting signal received by the receiving means.
[0007]
Preferably, the mounting portion is disposed at a body portion of a casing of the wireless microphone, and the microphone capsule is disposed at a distal end portion of the casing.
More preferably, the corded microphone is a tie pin type microphone, the cord connector is a plug, and the mounting portion is a jack into which the plug is inserted.
[0008]
Preferably, each of the plurality of radio channels is assigned a different frequency, and the transmitting means is an electromagnetic wave having a frequency assigned to the radio channel indicated by the channel setting signal, and the audio signal is superimposed on the radio channel. An electromagnetic wave is transmitted to the receiving device.
[0009]
According to the present invention, there is also provided a transmitting device connected to the receiving device in a wireless manner,
A channel setting signal indicating any one of a plurality of wireless channels provided in advance, which is transmitted as an infrared light signal from the light emitting means of the receiving device, and a mounting portion to which a cord connector of a corded microphone is mounted A light receiving means for receiving, and a transmission means for transmitting an audio signal to the receiving device as an electromagnetic wave in a wireless channel indicated by the channel setting signal received by the light receiving means, wherein the code connector is attached to the attachment portion. If there is a transmission device, a transmission device is provided that includes transmission means for transmitting the audio signal input to the corded microphone as a radio wave.
[0010]
Preferably, the apparatus further includes an operation switch, and the light receiving unit receives the channel setting signal transmitted as an infrared light signal from the receiving device when the operation switch is set from an off state to an on state. .
Preferably, the apparatus further includes a microphone capsule, and the transmission unit transmits an audio signal input to the microphone capsule as an electromagnetic wave to the transmission / reception device when the cord connector is not attached to the attachment portion.
[0011]
Preferably, the mounting portion is disposed at a body portion of a casing of the transmission device, and the microphone capsule is disposed at a distal end portion of the casing.
[0012]
According to the present invention, there is provided a wireless microphone that receives a channel setting signal indicating any one of a plurality of wireless channels provided in advance by the light receiving means and transmits an audio signal on the wireless channel indicated by the channel setting signal. A transmission / reception device for performing communication,
A light emitting means for transmitting the channel setting signal as an infrared light signal to a light receiving means of the wireless microphone;
Receiving means for receiving an audio signal transmitted as a radio signal from the wireless microphone on a radio channel indicated by the channel setting signal;
A transmission / reception device having
[0013]
Preferably, a different frequency is assigned to each of the plurality of radio channels, and the receiving means in the transmitting / receiving device is an electromagnetic wave having a frequency assigned to the radio channel indicated by the channel setting signal transmitted from the microphone. Thus, the electromagnetic wave on which the audio signal is superimposed is received.
[0014]
Preferably, the transmitting / receiving apparatus selects two audio signals received as the electromagnetic waves, and a signal selection for extracting one audio signal by selecting audio signals received by the two antennas using a diversity method. Means.
[0015]
The wireless microphone according to the present invention transmits the audio signal input to the microphone with the cord when the cord connector is attached to the attachment portion, and the microphone when the cord connector is not attached to the attachment portion. Since the audio signal input to the capsule is transmitted, the microphone capsule and the microphone with the cord can be used properly depending on whether or not the cord connector is attached, and the usability can be improved.
[0016]
The transmission means of the transmission apparatus according to the present invention transmits an audio signal input to the corded microphone when the cord connector is attached to the attachment portion. Since the transmission means transmits the audio signal to the transmission / reception apparatus on the wireless channel indicated by the channel setting signal received by the light receiving means, the transmission means can perform communication with a plurality of transmission / reception apparatuses according to the setting of the wireless channel. Accordingly, the trouble of replacing the wireless microphone or the transmission device can be eliminated, and the usability can be improved.
[0017]
The transmission / reception apparatus according to the present invention transmits a channel setting signal to the light receiving means of the wireless microphone, and receives an audio signal transmitted from the wireless microphone on a wireless channel indicated by the channel setting signal. Communication with a plurality of wireless microphones can be performed, and the trouble of replacing the wireless microphone or the transmission device in accordance with the transmission / reception device can be eliminated, and the usability can be improved.
[0018]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below with reference to the accompanying drawings.
[0019]
FIG. 1 is a schematic block diagram showing an embodiment of a wireless microphone according to the present invention.
The wireless microphone 10 includes a microphone capsule 11, a mounting unit 12, a switching unit 13, a modulation unit 14, a transmission unit 15, a transmission antenna 19, an operation switch 20, a control unit 21, and a drive unit 22. , Light emitting means 23, light receiving means 24, and detection means 25.
[0020]
The microphone capsule 11 receives an audio signal S 1, generates an audio signal S 11 composed of an electric signal by performing electroacoustic conversion on the audio signal S 1, and supplies the audio signal S 11 to the switching unit 13. The microphone capsule 11 receives, for example, an audio signal S1 generated by a university lecturer during a lecture.
[0021]
The attachment portion 12 is attached with a cord connector 33 connected to the cord 32 of the corded microphone 30. For example, the cord connector 33 is a plug, and the mounting portion 12 is a jack into which the plug is inserted.
The corded microphone 30 is, for example, a tie pin type microphone. An audio signal S3 is input to the microphone capsule 31 of the corded microphone 30 and the audio signal S3 is electroacoustic converted to generate an audio signal S33 composed of an electric signal. The audio signal S33 is converted into a code 32 and a code connector 33. To the mounting portion 12 via The mounting unit 12 supplies the audio signal S33 from the corded microphone 30 to the switching unit 13.
[0022]
When the cord connector 33 is not attached to the attachment portion 12, the switching means 13 supplies the audio signal S11 to the modulation means 14 as the switching output signal S13.
On the other hand, when the cord connector 33 is attached to the attachment portion 12, the switching means 13 supplies the audio signal S33 to the modulation means 14 as the switching output signal S13.
[0023]
Modulating means 14 modulates the output signal S13 of the switching means 13 generate a modulated signal S14, and supplies the modulated signal S14 to the transmitting means 15.
The modulation means 14 performs frequency modulation (FM modulation) on a predetermined high-frequency carrier wave designated by the control means 21, thereby superimposing the switching output signal S13 on the carrier wave to generate a modulated signal S14.
[0024]
The transmission unit 15 amplifies the modulated signal S14 from the modulation unit 14 and outputs the amplified signal S14 to the transmission antenna 19.
The transmission antenna 19 converts the modulated signal S14 from the transmission means 15 from an electric signal into a radio wave EB, and transmits the radio wave EB to a reception antenna (not shown) in the transmission / reception device 50.
[0025]
The operation switch 20 is a switch for switching the power on / off of the wireless microphone 10 depending on the on / off state. The state of the operation switch 20 is supplied to the control means 21.
[0026]
The control means 21 is a controller that controls the entire wireless microphone 10, and is configured by a microcomputer (microcomputer), for example.
The control unit 21 controls the modulation unit 14, the transmission unit 15, the drive unit 22, the detection unit 25, and the like.
The control means 21 outputs a frequency designation signal for designating a carrier frequency to the modulation means 14, and the modulation means 14 performs modulation using the designated carrier frequency.
In addition, when the operation switch 20 is set from the off state to the on state, the control unit 21 generates a request signal requesting a channel setting signal and a light emission command signal and outputs the request signal to the driving unit 22.
[0027]
The driving unit 22 drives the light emitting unit 23 to emit light based on the light emission command signal and the request signal from the control unit 16.
The light emitting means 23 emits infrared UBo and transmits a request signal to the light receiving means in the transmitting / receiving device 50.
[0028]
The light receiving unit 24 receives an infrared ray UBi from a light emitting unit (not shown) in the transmission / reception device 50 and supplies a light reception signal to the detection unit 25.
The detection unit 25 detects a channel setting signal from the light reception signal from the light reception unit 24 and supplies it to the control unit 21.
A plurality of radio channels (for example, 30 channels) are provided in advance between the wireless microphone 10 and the transmission / reception device 50, and a frequency for designating a frequency corresponding to the radio channel indicated by the channel setting signal among the plurality of radio channels. The control means 21 outputs the designation signal to the modulation means 14.
[0029]
The transmission / reception device 50 receives the radio wave (electromagnetic wave) EB transmitted from the transmission antenna 19 , detects the switching output signal S 13, and outputs the detected switching output signal S 13 to the amplifier (amplifier) 60.
The amplifier 60 amplifies the switching output signal S13 from the transmission / reception device 50 and supplies it to the speaker 70.
[0030]
The speaker 70 performs electroacoustic conversion on the amplified switching output signal S13 from the amplifier 60, thereby reproducing the sound signal S1 or the sound signal S3, which is a sound signal, and outputting the sound after amplification.
When the cord connector 33 is attached to the attachment portion 12, the speaker 70 amplifies and outputs the audio signal S 3 input to the corded microphone 30, and when the cord connector 33 is not attached to the attachment portion 12, the microphone 70. The voice signal S1 input to the capsule 11 is amplified and output.
[0031]
The wireless microphone 10 and the transmission / reception device 50 constitute a communication system 80.
The wireless microphone 10 constitutes a transmission device that transmits the input audio signals S <b> 1 and S <b> 3 to the transmission / reception device 50. Further, the transmitting / receiving device 50 constitutes a receiving device that receives the audio signals S1, S3 (or the switching output signal S13) transmitted from the wireless microphone 10.
[0032]
In the wireless microphone 10, the mounting portion 12 is disposed at the body portion of the housing of the wireless microphone 10, the microphone capsule 11 is disposed at one end portion of the body portion of the housing, and the light emitting means 23 and the light receiving means 24 are provided. It arrange | positions at the other front-end | tip part of the trunk | drum of the said housing | casing.
By providing the microphone capsule 11 at the distal end portion of the body portion of the casing of the wireless microphone 10, it becomes easy to bring the microphone capsule 11 close to the mouth when the user holds the wireless microphone 10 in his / her hand. Further, by providing the mounting portion 12 on the body portion of the wireless microphone 10, it is possible to prevent saliva and dust from the user's mouth from adhering to the mounting portion 12.
[0033]
FIG. 2 is a schematic block diagram showing an embodiment of the transmission / reception device 50 in FIG.
The transmission / reception apparatus 50 includes a first reception antenna 51, a second reception antenna 52, a reception unit 53, a demodulation unit 54, a control unit 55, a drive unit 56, a light emitting unit 57, and a light receiving unit 58. And detecting means 59.
[0034]
The light receiving means 58 receives the infrared ray UBo from the light emitting means in the wireless microphone 10 and outputs a light reception signal to the detection means 59.
The detection unit 59 detects a request signal for requesting a channel setting signal based on the light reception signal from the light reception unit 58 and outputs the request signal to the control unit 55.
[0035]
The control means 55 is a controller that controls the entirety of the transmission / reception device 50, and is configured by, for example, a microcomputer.
The control means 55 controls the receiving means 53, the demodulating means 54, the driving means 56, the detecting means 59 and the like.
When the request signal is supplied from the detection means 59, the control means 55 outputs a light emission control signal and a channel setting signal to the drive means 56.
[0036]
The driving unit 56 drives the light emitting unit 57 based on the light emission control signal and the channel setting signal from the control unit 55 to cause the light emitting unit 57 to emit light.
The light emitting means 57 emits infrared UBi and transmits a channel setting signal to the light receiving means in the wireless microphone 10.
[0037]
The first reception antenna 51 receives the radio wave EB from the antenna 19 of the wireless microphone 10 and supplies the reception signal S 51 to the reception unit 53.
The second reception antenna 52 receives the radio wave EB from the wireless microphone 10 and supplies the reception signal S52 to the reception unit 53.
[0038]
The receiving unit 53 detects the modulated signal S14 based on the received signals S51 and S52, and supplies the detected modulated signal S14 to the demodulating unit 54. The receiving means 53 uses a diversity reception method, and switches between the received signals S51 and S52 so that the transmission quality is improved.
The demodulator 54 demodulates the modulated signal S 14 output from the receiver 53 to reproduce the switching output signal S 13, and outputs the switching output signal S 13 to the amplifier 60.
[0039]
In the communication system 80, the channel setting signal is transmitted and received by infrared rays using the light emitting means and the light receiving means.
On the other hand, when channel setting signals are transmitted and received by radio waves, the radio waves may be transmitted to other classrooms and rooms, so that the radio waves for channel setting signals from one classroom should not be transmitted to other classrooms. It is necessary to finely adjust the transmission output, which is troublesome.
Since infrared rays hardly pass through to other classrooms or rooms, the communication system 80 has an advantage that it is easy to set and / or adjust the transmission output of the light emitting means.
[0040]
Note that the power source of the wireless microphone 10 may be a primary battery or a secondary battery. The receiving means 53 may have a squelch function.
Further, the switching output signal S13 from the transmitting / receiving device 50 arranged in each classroom is concentrated on one amplifier, and the switching output signal S13 from the transmitting / receiving device corresponding to the speaker arranged in each classroom is the one. It is good also as a structure which supplies from the amplifier of this and amplifies.
Moreover, the said embodiment is an illustration of this invention and this invention is not limited to the said embodiment.
[0041]
【The invention's effect】
The wireless microphone according to the present invention can selectively use the microphone capsule and the microphone with the cord depending on whether or not the cord connector is attached, and can improve the usability of the wireless microphone.
[0042]
The above-described transmission device according to the present invention can communicate with a plurality of transmission / reception devices according to the setting of the radio channel, can eliminate the need to replace the transmission device according to the transmission / reception device, and The user-friendliness of the wireless microphone that combines the transmitter and the corded microphone can be improved.
[0043]
The transmission / reception apparatus according to the present invention can communicate with a plurality of wireless microphones according to the setting of the radio channel, can eliminate the need to replace the wireless microphone according to the transmission / reception apparatus, and is easy to use the wireless microphone. Can be improved.
[Brief description of the drawings]
FIG. 1 is a schematic block diagram showing an embodiment of a wireless microphone according to the present invention.
2 is a schematic block diagram showing an embodiment of a transmitting / receiving device 50 in FIG. 1. FIG.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 10 ... Wireless microphone, 11, 31 ... Microphone capsule, 12 ... Mounting part, 13 ... Switching means, 14 ... Modulation means, 15 ... Transmission means, 19 ... Transmission antenna, 20 ... Operation switch, 21, 55 ... Control means, 22 , 56 ... Driving means, 23, 57 ... Light emitting means, 24, 58 ... Light receiving means, 25, 59 ... Detection means, 30 ... Microphone with cord, 32 ... Cord, 33 ... Cord connector, 50 ... Transceiver, 51 ... First 1 receiving antenna, 52 ... second receiving antenna, 53 ... receiving means, 54 ... demodulating means, 60 ... amplifier (amplifier), 70 ... speaker, 80 ... communication system, EB ... radio wave, S13 ... switching output signal, S1, S3, S11, S33 ... audio signals, UBi, UBo ... infrared rays.

Claims (12)

A wireless microphone connected to a receiving device in a wireless manner,
Microphone capsule,
A mounting part to which a cord connector of a corded microphone is mounted;
When the cord connector is attached to the attachment portion, an audio signal input to the corded microphone is selected, and when the cord connector is not attached to the attachment portion, it is input to the microphone capsule. Switching means for selecting an audio signal;
Transmitting means for transmitting the audio signal selected by the switching means to the receiving device as a radio wave ;
And a receiving means for receiving a channel setting signal indicating a radio channel of said transmitted as an infrared light signal from the receiving apparatus receiving the transmitted voice signals, a plurality of radio channels provided in advance,
The transmission means transmits the audio signal selected by the switching means on the radio channel indicated by the channel setting signal received by the reception means as a radio wave to the reception device .
Wireless microphone. It further has an operation switch,
The receiving means receives the channel setting signal from the transmission / reception device when the operation switch is set from an off state to an on state ,
The transmission means transmits the audio signal selected by the switching means on the radio channel indicated by the channel setting signal received by the reception means as a radio wave to the reception device .
The wireless microphone according to claim 1 . The mounting portion is disposed on a body portion of a casing of the wireless microphone,
The microphone capsule is disposed at the front end of the housing.
The wireless microphone according to claim 1 or 2 . The corded microphone is a tie pin type microphone,
The cord connector is a plug,
The mounting portion is a jack into which the plug is inserted.
The wireless microphone according to claim 1 . Each of the plurality of radio channels is assigned a different frequency,
The transmission means transmits an electromagnetic wave having a frequency assigned to a radio channel indicated by the channel setting signal and having the audio signal superimposed thereon to the receiving device .
The wireless microphone according to claim 1 . A transmitter connected to a receiver in a wireless manner,
A mounting part to which a cord connector of a corded microphone is mounted;
A light receiving means which is transmitted as an infrared light signal, receiving a channel setting signal indicating any of the wireless channels among the plurality of radio channels provided in advance from the light emitting unit of the receiving device,
Transmitting means for transmitting an audio signal to the receiving device as an electromagnetic wave on a wireless channel indicated by the channel setting signal received by the light receiving means, and when the cord connector is attached to the attachment portion, the code A transmission means for transmitting the audio signal input to the attached microphone as a radio wave ,
Transmitter device. It further has an operation switch,
The light receiving means, said operation switch when it is set from the off state to the on state, sent as an infrared light signal from the receiving device, for receiving the channel setting signal
The transmission device according to claim 6 . A microphone capsule;
The transmission means transmits an audio signal input to the microphone capsule as an electromagnetic wave to the transmission / reception device when the cord connector is not attached to the attachment portion.
The transmission device according to claim 6 or 7 . The mounting portion is disposed on a body portion of a casing of the transmission device,
The microphone capsule is disposed at the front end of the housing.
The transmission device according to claim 8 . A transmission / reception device that communicates with a wireless microphone that receives a channel setting signal indicating any one of a plurality of wireless channels provided in advance by a light receiving unit and transmits an audio signal on the wireless channel indicated by the channel setting signal. And
A light emitting means for transmitting the channel setting signal as an infrared light signal to a light receiving means of the wireless microphone;
Receiving means for receiving an audio signal transmitted as a radio wave signal from the wireless microphone on a radio channel indicated by the channel setting signal; Each of the plurality of radio channels is assigned a different frequency,
The receiving means in the transmitting / receiving device receives an electromagnetic wave transmitted from the microphone and having a frequency assigned to a wireless channel indicated by the channel setting signal and having an audio signal superimposed thereon.
The transmission / reception apparatus according to claim 10 . The transceiver device is
Two antennas for receiving an audio signal transmitted as the electromagnetic wave;
A signal selection means for selecting a voice signal received by the two antennas by a diversity method and extracting one voice signal;
Having
The transmission / reception apparatus according to claim 11.

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