KR100980392B1 - Wireless mike system - Google Patents

Abstract

The present invention relates to a wireless microphone system. More particularly, the present invention relates to a wireless microphone system in which a receiver can be changed and used for a plurality of receivers in which a wireless transmitter is installed in different locations. The microphone system includes: a plurality of receivers arranged in spaced apart states and using different frequencies; A channel information signal transmitter installed in each of the plurality of receivers and transmitting a channel information signal unique to each receiver; A radio transmitter which converts a voice signal into a digital signal and transmits the voice signal to the receiver at a frequency used by the receiver; A channel information signal receiver installed in the wireless transmitter and searching for and receiving the channel information signal existing in a predetermined region; And a control unit installed in the wireless transmitter and adjusting a frequency band of the transmitter according to the channel information signal received by the channel information signal receiver to a frequency of a receiver corresponding to the channel information signal.

Wireless, microphone, receiver, channel

Description

Wireless microphone system {WIRELESS MIKE SYSTEM}

The present invention relates to a wireless microphone system. More particularly, the present invention relates to a wireless microphone system that can change a receiver for a plurality of receivers in which a wireless transmitter is installed at different locations.

In general, a wireless microphone is composed of a wireless microphone (transmitter) and a pair of receivers. Among them, the digital wireless microphone is configured in such a way that two channels are communicated by dividing a specific frequency band into several channels and allocating one of them for digital signal exchange between the transmitter and the receiver.

For example, a wireless microphone using a frequency band of 2.4 GHz is available in the range 2.4 to 2.4835 GHz (a legal frequency band that can be used without a license for commercial use), so use this frequency band as 0.0001 GHz or 0.001 GHz. By dividing the channel into intervals (the more segmented, the greater the number of channels but the greater the interference between the channels), the transmitter and receiver exchange signals through one channel 1: 1.

However, this type of wireless microphone has a problem that it is impossible to use the other receiver because the channel that can be used for one receiver is fixed. Therefore, in a structure in which a separate receiver is arranged in each room or space, divided into several rooms or spaces in a building such as a school or an institute, there is a problem in that a wireless microphone must be provided for each room or space.

Since a wireless microphone may cause hygiene problems such as saliva getting in a user's use process, it is preferable to use its own wireless microphone exclusively. However, as described above, when the wireless microphone is fixed in each room or space, the user of the wireless microphone is frequently replaced to cause hygiene problems.

Therefore, there is an urgent need for the development of a wireless microphone system that can be used in any space by personally owning a wireless microphone and matching channels with a receiver arranged in each room or space.

The technical problem to be solved by the present invention is to provide a wireless microphone system that can be used to change the receiver for a plurality of receivers installed in one wireless transmitter in different locations.

In accordance with another aspect of the present invention, there is provided a wireless microphone system, including: a plurality of receivers arranged in spaced apart from different spaces and using different frequencies; A channel information signal transmitter installed in each of the plurality of receivers and transmitting a channel information signal unique to each receiver; A radio transmitter which converts a voice signal into a digital signal and transmits the voice signal to the receiver at a frequency used by the receiver; A channel information signal receiver installed in the wireless transmitter and searching for and receiving the channel information signal existing in a predetermined region; And a control unit installed in the wireless transmitter and adjusting a frequency band of the transmitter according to the channel information signal received by the channel information signal receiver to a frequency of a receiver corresponding to the channel information signal.

In the present invention, it is preferable that the receiver and the wireless transmitter use a frequency of the 2.4 GHz band because the frequency band used is wide and can provide sound quality that is close to the original sound.

In addition, it is preferable that the channel information signal transmitter and the channel information signal receiver communicate with each other using infrared communication, since the channel information signal can be easily transmitted and received with a simple structure.

In addition, the channel information signal transmitting unit may transmit a plurality of different channel information signals, and when a problem occurs in one channel, communication is possible using another channel.

In addition, in the wireless microphone system according to the present invention, a communication failure provided in the receiver and controlling the channel information signal transmitting unit to transmit the channel information signal again when an abnormality occurs for a predetermined time in a frequency communicating with the wireless transmitter. It is preferable that a correction unit is further provided in the case of a communication failure, because voice signals can be transmitted and received quickly using another channel.

In the wireless microphone system according to the present invention, the wireless transmitter system is provided in the wireless transmitter, and the channel information signal receiving unit is configured to find and receive a new channel information signal when the wireless transmitter moves to a new place or an error occurs in the frequency of use during communication with the receiver. It is preferable that the automatic channel scan unit for controlling the further.

According to the present invention, one wireless transmitter, that is, one wireless microphone, can be used for a plurality of receivers installed at different locations. Therefore, when a plurality of receivers are installed in each of a plurality of rooms or spaces in a building such as a school or a school, the user can carry one wireless microphone and use it for each receiver in different places. .

In addition, in the wireless microphone system according to the present invention, when a problem or a failure occurs in the channel in use, it is possible to quickly transmit and receive voice signals using another channel, there is an advantage that the use of the wireless microphone is not interrupted.

Hereinafter, with reference to the accompanying drawings will be described in detail a specific embodiment of the present invention.

The wireless microphone system according to the present embodiment includes a plurality of receivers 100, a channel information signal transmitter 110, a radio transmitter 1, a channel information signal receiver 10, and a controller 20.

First, as shown in FIG. 1, the receiver 100 is spaced apart from each other in different spaces and uses different frequencies, and receives a digital voice signal transmitted from the wireless transmitter 1 and receives the received digital signal. Demodulates and amplifies the audio signal and outputs it to the speaker. In this embodiment, as shown in Figure 1, such a plurality of receivers 100 vary in space, such as a school, for example, where a plurality of classrooms 210 are formed separately in one building 200 In the classroom, each receiver is arranged in a structure such that a separate receiver is arranged. At this time, each receiver 100 is set to use a different frequency.

2 and 3, the receiver 100 includes a channel information signal transmitter 110, a channel link display unit 120, an antenna 130, a microphone audio output terminal 140, and an ID setting unit 150. ) And the like.

First, the channel information signal transmitter 110 is installed in each of the plurality of receivers 100 and is a component for transmitting channel information signals unique to each receiver. In the wireless microphone system according to the present embodiment, one radio transmitter 1 moves in different places and transmits a voice signal to a receiver installed at each place. At this time, in order for the receiver and the wireless transmitter installed in a specific place to transmit and receive a digital voice signal, the frequencies used by the wireless transmitter and the receiver must match each other. To this end, the channel information signal transmitter 110 transmits a receiver-specific channel information signal capable of confirming a frequency used by the receiver 100. The channel information signal transmitter 110 according to the present embodiment may transmit one channel information signal, but may also transmit a plurality of different channel information signals.

Next, the radio transmitter 1 is a component that converts a voice signal into a digital signal and transmits it to the receiver at a frequency used by the receiver 100. This radio transmitter 1 can be configured as a radio microphone, and in this embodiment, one radio transmitter can be used corresponding to a plurality of receivers installed at different locations.

To this end, in the present embodiment, the radio transmitter 1 is further provided with a channel information signal receiver 10 for searching for and receiving the channel information signal existing in a predetermined area. The channel information signal receiver 10 finds and receives a channel information signal (which is a channel information signal transmitted from a channel information signal transmitter of a specific receiver) existing in a specific place by a user's operation. Therefore, the radio transmitter 1 according to the present embodiment can find the receiver present in the specific area by the channel information signal receiver 10 and know the frequency used by the receiver.

In the wireless microphone system according to the present embodiment, the channel information signal transmitter 110 and the channel information signal receiver 10 preferably transmit and receive channel information signals using infrared communication. This is because using infrared communication can transmit and receive channel information signal in a short and accurate manner.

The wireless transmitter 1 according to the present embodiment transmits a digital voice signal at a plurality of different frequencies. Therefore, when the receiver 100 communicates with one of these frequencies and an abnormality occurs in the frequency, the receiver 100 can continuously communicate with the other frequency.

In addition, the control unit 20 is installed in the wireless transmitter 1, and according to the channel information signal received from the channel information signal receiving unit 10, the frequency band of the transmitter is used as the frequency of the receiver corresponding to the channel information signal. The component to adjust.

That is, the controller 20 moves to a specific place and recognizes an operation signal for the user to find a new channel information signal so that the channel information signal receiver 10 searches for and receives a channel information signal in a specific area. After analyzing the received channel information signal to confirm the frequency band used by the receiver, the radio transmitter 1 causes the digital signal to be transmitted in the frequency band.

The controller 20 checks the channel information signal by the channel information signal transmitter 110 and the channel information signal receiver 10, and when the radio transmitter 1 and the receiver 100 start communication with each other, Cancels the information signal check mode and switches to wireless microphone transmission and reception.

In this way, if the state of the wireless microphone transmission and reception continues and there is no signal and response for a certain time (for example, for 1 minute) in a specific situation, the channel information signal transmission unit 110 and the channel information signal are switched back to the channel information signal check mode. Infrared communication is attempted between the receivers 10.

Next, the antenna 130 is a component that receives a digital voice signal transmitted from the wireless transmitter 1. In addition, the microphone voice output terminal 140 is a component that outputs the voice signal processed by the receiver to a speaker (not shown).

Next, the ID setting unit 150 is a component for setting an ID corresponding to the frequency band used by the receiver 100. The radio transmitter 1 and the receiver 100 according to the present embodiment use a frequency of the 2.4 GHz band. In this frequency band, as described above, dividing the frequency band at intervals of 0.001 GHz results in approximately 80 used frequency bands. If an ID is assigned to each of these frequency bands, each receiver 150 may set one ID of 80 pieces. Therefore, the user can set the ID of the receiver by using the ID setting unit, it can be set so that each receiver has a different ID for a plurality of receivers installed in one building.

On the other hand, in the receiver 100 according to the present embodiment, when an abnormality occurs in the frequency communicating with the radio transmitter 1, the channel information signal transmitter to transmit a new channel information signal corresponding to a frequency different from the use frequency. Preferably, the communication failure correction unit (not shown in the drawing) is further provided.

While the radio transmitter 1 and the receiver 100 communicate with each other during use, an abnormality may occur in the frequency of use. In this case, there is a problem that a wireless microphone cannot be used unless another frequency is used. Therefore, in the present embodiment, a new frequency that can replace a problem frequency is found using the communication failure correction unit, and a new channel information signal corresponding to the frequency is transmitted through the channel information signal transmitter. This new channel information signal is then received by the channel information signal receiver to quickly change the frequency band used by the radio transmitter.

To this end, the wireless transmitter 1 according to the present embodiment controls the channel information signal receiver to find and receive a new channel information signal when the wireless transmitter moves to a new place or when an error occurs in the frequency of use during communication with the receiver. It is preferable that an automatic channel scanning unit (not shown) is further provided. When an abnormality occurs in the frequency used during communication by the automatic channel scanning unit, the channel information signal transmitting unit 110 can automatically receive a new channel information signal.

Meanwhile, as illustrated in FIG. 4, the wireless transmitter, that is, the wireless microphone 1 according to the present embodiment, includes a main body 100, a mute button 30, a channel reception display unit 40, a volume control button 50, The charging jack insertion groove 60, the built-in microphone 70, the external microphone input terminal 80 is further provided.

Here, the main body 100 is a component forming the overall appearance of the wireless microphone 1 according to the present embodiment, and provides a space in which various components of the wireless microphone 1 may be disposed, As shown in Figure 4, it provides a groove in which various components can be mounted. The main body 100 may be made of various materials such as plastic and metal.

Next, the mute button 30 is a component for stopping the voice signal output from the wireless microphone 1, and in certain cases, stops the voice output of the wireless microphone to remove the sound.

In addition, the volume control button 50 is a button for adjusting the volume by adjusting the volume of the audio output from the wireless microphone (1). By using the volume control button 50, there is an advantage that the volume can be adjusted directly from the microphone, without adjusting the volume of the speaker connected to the receiver. In general, the wireless microphone is used while the user is free to move away from the receiver and speakers over a certain distance. Therefore, in order to adjust the microphone volume while using the wireless microphone, it is inconvenient to move to the place where the receiver or the speaker is installed and adjust the volume. However, since the wireless microphone 1 according to the present embodiment can adjust the volume directly from the wireless microphone, the user can easily adjust the volume without moving the position.

On the other hand, the wireless microphone 1 according to the present embodiment, a rechargeable battery (not shown) for charging a certain amount of power for convenient use, and a charging jack insertion groove into which the rechargeable battery can be inserted a charging jack connected to an external power source. It is preferable to further provide 60. In this embodiment, it is preferable that the charging jack insertion groove 60 is configured as a charging jack insertion groove 60 into which the common charging jack for a mobile phone can be inserted. The common charging jack for a mobile phone refers to a charging jack commonly used for charging a mobile phone which is widely used. The wireless microphone 1 according to the present embodiment also uses such a charging jack to separately charge the battery. Without the jack, there is an advantage that can be easily charged using a common charging jack for a mobile phone possessed in the prior art.

In addition, the wireless microphone 1 according to the present embodiment is provided with a built-in microphone 70, as shown in Figures 4 and 5, the built-in microphone 70 has a structure that can be mounted on the inside of the main body 100. In this way, the built-in microphone 70 has a structure that can be sunk in and out of the main body 100 is to use the microphone more efficiently by changing the position when the built-in microphone and the non-use of the built-in microphone.

That is, while using the built-in microphone 70, as shown in Figure 4, the built-in microphone is used to protrude to the outside of the main body 100. This has the advantage that you can get a clear audio signal without noise from the microphone.

On the other hand, while not using the built-in microphone 70, the built-in microphone is placed in the state inserted into the main body 100. When the built-in microphone 70 is moved to the inside of the main body 100, the portable microphone is not only easy to carry, but the built-in microphone can be prevented from being damaged during storage or carrying.

To this end, in the present embodiment, as shown in Figure 5, it is preferable to further include a built-in microphone slide bar 90 to project the built-in microphone 70 in a sliding manner. Therefore, in this embodiment, the built-in microphone 70 can be raised and retracted with a simple structure, and there is an advantage that the manufacturing is easy.

Meanwhile, as illustrated in FIG. 4, the wireless microphone 1 according to the present embodiment may further include an external microphone input terminal 80 to which an external microphone can be connected.

In the main body 100 of the wireless microphone 1 according to the present embodiment, a structure capable of processing a voice signal and converting the digital signal into a digital signal and transmitting the same is provided in the same manner as a general wireless microphone. For example, various components such as a noise canceling and signal amplifier, a data converter, a data compressor, a high frequency transmitter, a channel converter, and a microcontroller may be provided substantially the same as those of a general wireless microphone.

1 is a schematic diagram illustrating an arrangement of a receiver according to an embodiment of the present invention.

2 is a perspective view illustrating a structure of a receiver according to an embodiment of the present invention.

3 is a perspective view of another direction illustrating a structure of a receiver according to an embodiment of the present invention.

4 is a perspective view illustrating a structure of a wireless transmitter according to an embodiment of the present invention.

5 is a perspective view of another direction illustrating the structure of a radio transmitter according to an embodiment of the present invention.

Claims (6)

A plurality of receivers spaced apart from each other and using different frequencies; A channel information signal transmitter installed in each of the plurality of receivers and transmitting a channel information signal unique to each receiver; A radio transmitter which converts a voice signal into a digital signal and transmits the voice signal to the receiver at a frequency used by the receiver; A channel information signal receiver installed in the wireless transmitter and searching for and receiving the channel information signal existing in a predetermined region; A control unit installed in the wireless transmitter and adjusting a frequency band of the transmitter to a frequency of a receiver corresponding to the channel information signal according to the channel information signal received by the channel information signal receiving unit. The channel information signal transmitting unit transmits a plurality of different channel information signals, A communication failure correction unit provided in the receiver and controlling the channel information signal transmitter to transmit the channel information signal again when an abnormality occurs in a frequency communicating with the wireless transmitter for a predetermined time; An automatic channel scan unit provided in the wireless transmitter, the automatic channel scan unit controlling the channel information signal receiver to find and receive a new channel information signal when the wireless transmitter moves to a new place or when an error occurs in the frequency of use during communication with the receiver; Wireless microphone system, characterized in that provided. The method of claim 1, And the receiver and the wireless transmitter use a frequency in the 2.4 GHz band. The method of claim 2, And the channel information signal transmitter and the channel information signal receiver communicate using infrared communication. delete delete delete

Images