WO2018072346A1 - Data forwarding apparatus, and data forwarding method, device, and system - Google Patents

Abstract

Disclosed in embodiments of the present invention are a data forwarding apparatus, and data forwarding method, device, and system. The data forwarding apparatus comprises a signal transmitter and microphone. The signal transmitter comprises a main control chip, a Bluetooth chip, and a speaker. The Bluetooth chip and speaker are connected to the main control chip. The data forwarding apparatus enables, by means of a communicative combination of the speaker and microphone, forwarding of a notification message received by a first terminal to a second terminal to be shown. For example, the present invention enables forwarding of a notification message received by a smart phone to be displayed on a computer for all systems, thus providing superior compatibility, and enabling a user to immediately obtain a notification message received by a cell phone while working on a computer without frequently checking the cell phone. In this way, the present invention prevents influences on working efficiency of the user. In addition, Bluetooth communication is employed instead of a WiFi router, such that the present invention is applicable in scenarios having no WiFi connectivity, consumes low power, and protects information security of a user.

Description

Data forwarding device, data forwarding method, device and system Technical field

The present invention relates to the field of communications technologies, and in particular, to a data forwarding device, a data forwarding method, apparatus, and system.

Background technique

With the accelerating pace of modern life and the continuous improvement of people's living standards, the use of computers and smart phones has become more and more popular in people's daily life. It has become a common use to use computers to communicate with others through smartphones. Lifestyle mode.

Usually, the smartphone cannot transmit the received notification message to the computer, so that the user working with the computer can know the content of the notification message in time, and the user needs to interrupt the work in the hand and unlock the smart phone to read the message to understand the notification message. Content, inconvenience to the user's work, affecting the user's work efficiency.

In order to solve the above problem, in the prior art, the function of transmitting the notification information of the mobile phone to the computer through the Bluetooth or wifi (wireless-fidelity) between the computer under the Mac OS system and the mobile phone under the iOS system; However, it is difficult to implement this function between the mobile phone under iOS system and the mobile phone under Android system and the computer under Windows system; Android mobile phone can realize this function through wifi LAN and computer under Windows system, but it depends on wifi router if user In the office, it is difficult to implement this function, and there is information security problem; in addition, the scheme of using wifi for LAN data transmission does not support the mobile phone under iOS system.

Summary of the invention

In order to solve the related technical problem, the present invention provides a data forwarding device, a data forwarding method, device and system, which realize the transmission of the notification information received by the mobile terminal to the computer, and the compatibility is good, and is suitable for the intelligence under various systems. Mobile phones and computers.

To achieve the above objective, the embodiment of the present invention adopts the following technical solutions:

In a first aspect, an embodiment of the present invention provides a data forwarding device, including a signal transmitter and a microphone;

The signal transmitter includes a main control chip, a Bluetooth chip and a speaker, and the Bluetooth chip and the speaker are both connected to the main control chip;

The Bluetooth chip is configured to receive notification information sent by the first terminal by using Bluetooth;

The main control chip is configured to convert the notification information into binary information;

The speaker for transmitting the binary information by a frequency change of an acoustic signal;

The microphone is configured to receive the sound wave signal and send the sound wave signal to a second terminal.

In a second aspect, the embodiment of the present invention provides a data forwarding method, where the method is applied to the data forwarding device in the foregoing first aspect, where the method includes:

Receiving, by the Bluetooth chip, data carrying the notification information sent by the first terminal;

Encoding the data by the control chip to obtain binary data;

Controlling, by the binary data, the sound waves signals of the speakers to different frequencies;

Receiving, by the microphone, the acoustic wave signal, and transmitting the acoustic wave signal to a second terminal, so that the second terminal obtains the binary data according to the acoustic wave signal, and parses the notification information.

In a third aspect, the embodiment of the present invention provides a data forwarding device, where the device is applied to the data forwarding device in the foregoing first aspect, where the device includes:

a data receiving module, configured to receive, by using the Bluetooth chip, data that is sent by the first terminal and that carries the notification information;

An encoding module, configured to encode the data by the control chip to obtain binary data;

a control module, configured to control the speaker to emit sound waves of different frequencies according to the binary data;

And a sound wave signal receiving module, configured to receive the sound wave signal through the microphone, and transmit the sound wave signal to a second terminal, so that the second terminal obtains the binary data according to the sound wave signal, and obtains the Notification information.

In a fourth aspect, the embodiment of the present invention further provides a data forwarding system, where the system includes the data forwarding device described in the foregoing first aspect, the system further includes a first terminal and a second terminal;

The first terminal is configured to send data carrying the notification information to the data forwarding device;

The data forwarding device is configured to encode the received data to obtain binary data, and send the binary data to the second terminal;

The second terminal is configured to receive the binary data, parse the obtained notification information, and display the notification information on a display screen.

The beneficial effects brought by the technical solutions provided by the embodiments of the present invention are as follows:

In the technical solution, the data forwarding device includes a main control chip, a Bluetooth chip and a speaker, and the Bluetooth chip and the speaker are connected to the main control chip. Receiving the notification information sent by the first terminal through the Bluetooth chip, converting the notification information into binary information through the main control chip, transmitting the binary information by controlling the frequency change of the sound wave signal sent by the speaker, and receiving the sound wave signal emitted by the speaker through the microphone And transmitting the sound wave signal to the second terminal, so that the second terminal obtains the binary information according to the sound wave signal, parses the binary information to obtain the notification information, and displays the content of the notification information, for example, the data forwarding device receives the notification information received by the smart phone end. , forwarded to the computer display, so that when the user works with the computer, You don't need to check your phone frequently to know the notification information received by your phone, and it does not affect the user's work efficiency.

DRAWINGS

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings used in the description of the embodiments of the present invention will be briefly described below. It is obvious that the drawings in the following description are only some embodiments of the present invention. For those skilled in the art, other drawings may be obtained according to the contents of the embodiments of the present invention and the drawings without any creative work.

1 is a schematic structural diagram of a data forwarding device according to Embodiment 1 of the present invention;

2 is a schematic flowchart of a data forwarding method according to Embodiment 2 of the present invention;

3 is a schematic flowchart of a data forwarding method according to Embodiment 3 of the present invention;

4 is a schematic structural diagram of a data forwarding device according to Embodiment 4 of the present invention;

FIG. 5 is a schematic structural diagram of a data forwarding apparatus according to Embodiment 5 of the present invention; FIG.

FIG. 6 is a schematic structural diagram of a data forwarding system according to Embodiment 6 of the present invention.

detailed description

The technical solutions of the embodiments of the present invention will be further described in detail below with reference to the accompanying drawings, and it is obvious that the described embodiments are only the present invention. Some embodiments, but not all of the embodiments. All other embodiments obtained by a person skilled in the art based on the embodiments of the present invention without creative efforts are within the scope of the present invention.

Embodiment 1

In order to realize the transmission of the notification information received by the smart phone to the computer, and the invention has good compatibility, the embodiment of the present invention provides a data forwarding device. Please refer to FIG. 1 , which is an embodiment of the present invention. A schematic diagram of a structure of a data forwarding device.

A data forwarding device 1 comprising a signal transmitter 11 and a microphone 12;

The signal transmitter 11 includes a main control chip 111, a Bluetooth chip 112 and a speaker 113, and the Bluetooth chip 112 and the speaker 113 are both connected to the main control chip 111;

The Bluetooth chip 112 is configured to receive notification information that is sent by the first terminal by using Bluetooth;

The main control chip 111 is configured to convert the notification information into binary information;

a speaker 113 for transmitting binary information by a frequency change of the acoustic wave signal;

The microphone 12 is configured to receive the acoustic signal and transmit the acoustic signal to the second terminal.

Preferably, the speaker 113 is a tweeter. In other embodiments, the speaker 113 can also be a normal speaker, but the sound waves generally emitted by the ordinary speaker can be heard by the human ear, and the sound frequency that the human can hear is about 20-20000HZ, such sound waves will interfere with the user and In the present embodiment, the speaker 113 is a high-frequency speaker, which emits high-frequency sound waves, such as sound waves of 30000HZ and 40000HZ, which are not heard by the human ear and do not interfere with the user and Others, and strong anti-interference ability. It should be noted that the microphone 12 in the present solution has no physical connection relationship with the signal transmitter 11 , and the two are independent components in terms of hardware relationship, and only one-way signal transmission based on sound waves can be realized, and The microphone 12 in the present solution is not necessarily a microphone specially prepared for the data forwarding device 1. A separate microphone purchased separately or a microphone integrated in the computer can be used to implement the solution.

In summary, in the technical solution, the data forwarding device receives the notification information sent by the first terminal through the Bluetooth chip, converts the notification information into binary information through the main control chip, and realizes sending the binary by controlling the frequency change of the acoustic signal sent by the speaker. The information is received by the microphone and sent to the second terminal, so that the second terminal obtains the binary information according to the frequency change of the acoustic signal, parses the binary information to obtain the notification information, and displays the information. Data forwarding device through the speaker and microphone communication group The notification information received by the first terminal is forwarded to the second terminal for display, for example, the notification information received by the smart phone can be forwarded to the computer for display under various systems, and the compatibility is good, so that the user works when using the computer. It is not necessary to frequently check the mobile phone to know the notification information received by the mobile phone, and does not affect the user's work efficiency. The Bluetooth communication does not depend on the wifi router, and is suitable for a scene without a wifi signal and consumes low power.

Embodiment 2

Please refer to FIG. 2 , which is a schematic flowchart of a data forwarding method according to Embodiment 2 of the present invention. The method of the embodiment may be performed by the data forwarding device in the first embodiment, and is applicable to transmitting the notification information received by the terminal such as a smart phone to a scene displayed by a terminal such as a computer.

A data forwarding method is applied to the data forwarding device described in the first embodiment, and includes the following steps:

S210: Receive, by using a Bluetooth chip, data that is sent by the first terminal and carries the notification information.

Exemplarily, the signal transmitter part of the data forwarding device in this embodiment may be an object such as a pendant, a brooch, a badge, or the like that can be hung on the upper body of the user, or a bracelet-like object that can be worn on the wrist of the user. The user can be worn close to the second terminal, and the speaker of the data forwarding device faces away from the user's body. When the first terminal receives the notification information, the data carrying the notification information is sent to the data forwarding device through the Bluetooth, and the signal transmitter of the data forwarding device receives the data carrying the notification information through the Bluetooth chip.

S220: The data is encoded by the control chip to obtain binary data.

Exemplarily, after the signal transmitter of the data forwarding device receives the data carrying the notification information, the control chip encodes the data into binary data according to an existing custom protocol, that is, encodes the data carrying the notification information according to the custom protocol. A combination of numbers 0 and 1.

S230: Control the speaker to emit sound waves of different frequencies according to the binary data.

Illustratively, the control chip controls the speaker to emit the first frequency acoustic wave signal and the second frequency acoustic wave signal respectively according to the numbers 1 and 0 in the binary data. Specifically, when the sound wave signal of the first frequency is outputted by the control speaker, it represents the number 1, and when the sound wave signal of the second frequency is output, it represents the number 0; or when the sound wave signal is outputted by the control speaker, it represents the number 1, and when the sound wave signal is stopped, the representative signal is stopped. The number is 0.

For example, the speaker is a high-frequency speaker that can emit high-frequency sound waves. The custom number 1 indicates that the high-frequency speaker emits a high-frequency sound wave signal of 40000HZ, and the number 0 indicates that the high-frequency speaker emits a high-frequency sound wave signal of 30000HZ; The number 1 can be customized to indicate that the tweeter emits a high frequency sound wave signal of 40000 Hz, and the number 0 indicates that the high frequency speaker does not emit a sound wave signal.

For another example, when the control chip controls the state of the first frequency acoustic wave signal or the second frequency acoustic wave signal according to the binary data, the duration of the speaker being in a certain state may be controlled according to a custom protocol, for example, Each number 1 indicates that the speaker emits a first frequency acoustic signal for 0.1 second. Each digit 0 indicates that the speaker emits a second frequency acoustic signal for 0.1 second. Two consecutive digits 1 (ie, 11) indicate that the speaker emits the first frequency. The acoustic signal lasts for 0.2 seconds, that is, the duration of each status bit of the speaker is 0.1 second.

S240: Receive an acoustic wave signal through a microphone, and transmit the acoustic wave signal to the second terminal, so that the second terminal obtains binary data according to the acoustic wave signal, and parses and obtains the notification information.

Exemplarily, the microphone transmits the received acoustic wave signal to the second terminal in real time, and the second terminal obtains binary data according to the frequency change of the acoustic wave signal, and the notification information is obtained after parsing the binary data, and the notification information is displayed on the second terminal. On the display.

In this embodiment, the first terminal is a terminal such as a smart phone, and the second terminal is a terminal such as a computer.

In summary, in the technical solution, the data forwarding device receives the data carrying the notification information sent by the first terminal through the Bluetooth chip, and encodes the data through the control chip to obtain binary data, according to The binary data control speaker emits sound waves of different frequencies, transmits binary data according to the frequency change of the sound wave signal, receives the sound wave signal through the microphone, and transmits the sound wave signal to the second terminal, so that the second terminal obtains the frequency change according to the sound wave signal. Binary data, parsed to get notification information. The data forwarding device can forward the notification information received by the first terminal to the second terminal through the communication combination of the speaker and the microphone. For example, the notification information received by the smart phone can be forwarded to the computer for display under various systems, and is compatible. Good sex, so that when users use the computer to work, you don't need to frequently check the mobile phone to know the notification information received by the mobile phone, which does not affect the user's work efficiency. Bluetooth communication is not dependent on the wifi router, and is suitable for scenarios without wifi signals. Low battery.

Embodiment 3

Please refer to FIG. 3 , which is a schematic flowchart of a data forwarding method according to Embodiment 3 of the present invention. The main difference between this embodiment and the second embodiment is that the content of the handshake is recognized by the Bluetooth chip and the sound signal of the preset frequency is turned on for the preset duration.

A data forwarding method, which is applied to the data forwarding device described in any of the foregoing embodiments, includes the following steps:

S310: Perform handshake identification with the first terminal by using a Bluetooth chip.

Exemplarily, the data forwarding device is connected to the first terminal in the same manner as the ordinary smart bracelet and the smart phone.

For example, the smart phone pre-installs the corresponding application, scans the data forwarding device through Bluetooth and initiates a pairing operation, and the pairing successfully completes the handshake identification. After the smart phone is close to the data forwarding device, the data forwarding device automatically connects to the smart phone. , continuously monitor the notification information received by the smartphone without the user manually intervening in the connection operation.

S320: Receive, by using a Bluetooth chip, data that is sent by the first terminal and carries the notification information.

Exemplarily, the smart phone receives the notification information, and sends the data carrying the notification information under the Bluetooth protocol to the data forwarding device through the Bluetooth, and the data forwarding device receives the data through the Bluetooth.

S330: The data is encoded by the control chip to obtain binary data.

S340: Turn on the speaker to continuously output the sound wave signal of the preset frequency for a preset time period.

Exemplarily, the acoustic signal of the preset frequency is one of the acoustic signals of different frequencies in S350 described below. Before the signal transmitter sends the acoustic signal through the speaker to transmit the binary data, it is required to notify the second terminal to start transmitting the acoustic signal corresponding to the binary data according to the provisions of the custom protocol, with each status bit duration of 0.1 second, the number 1 means that the speaker emits a sound signal of 40000HZ, and the number 0 means that the speaker emits a sound signal of 30000HZ. For example, three consecutive digits 1 are added before the binary data to be transmitted, that is, the speaker emits a sound signal of 40000HZ for 0.3 seconds. The signal transmitter notifies the second terminal that binary data carrying the notification information is to be transmitted.

S350: Control the speaker to emit sound waves of different frequencies according to the binary data.

S360: Receive an acoustic wave signal through a microphone, and transmit the acoustic wave signal to the second terminal, so that the second terminal obtains binary data according to the acoustic wave signal, and parses and obtains the notification information.

For example, when the second terminal is a terminal such as a laptop or a tablet with a microphone, the microphone of the data forwarding device can be a microphone provided by the computer terminal, and when the second terminal is a desktop computer without a microphone, The microphone of the data forwarding device needs to be connected to the desktop computer. Both methods are used to ensure that the acoustic signal received by the microphone can be transmitted to the user's computer in time for subsequent analysis.

In summary, in the technical solution, the data forwarding device performs handshake handshake with the first terminal through the Bluetooth chip, and receives data carrying the notification information sent by the first terminal, and encodes the data by the control chip to obtain binary data, and starts the speaker output. The sound signal of the preset frequency continues for a preset duration, and the sound signal of different frequencies is controlled by the speaker according to the binary data, and the frequency of the sound wave signal changes. The binary data is transmitted, the acoustic wave signal is received through the microphone, and the acoustic wave signal is transmitted to the second terminal, so that the second terminal obtains binary data according to the frequency change of the acoustic wave signal, and the notification information is obtained by parsing. The data forwarding device can forward the notification information received by the first terminal to the second terminal through the communication combination of the speaker and the microphone. For example, the notification information received by the smart phone can be forwarded to the computer for display under various systems, and is compatible. Good sex, so that when users use the computer to work, you don't need to frequently check the mobile phone to know the notification information received by the mobile phone, which does not affect the user's work efficiency. Bluetooth communication is not dependent on the wifi router, and is suitable for scenarios without wifi signals. Low battery.

The foregoing embodiment 2 and the third embodiment are embodiments of the data conversion method provided by the embodiment of the present invention. The following embodiments 4 and 5 are embodiments of the data forwarding device provided by the embodiment of the present invention, and the data forwarding device and the foregoing The data forwarding method belongs to a general inventive concept. For details not described in detail in the embodiment of the data forwarding device, reference may be made to the embodiment of the data forwarding method described above.

Embodiment 4

Please refer to FIG. 4 , which is a schematic structural diagram of a data forwarding device according to Embodiment 4 of the present invention.

A data forwarding device 400, which is applied to the data forwarding device in any of the above embodiments, may include the following content:

The data receiving module 410 is configured to receive, by using a Bluetooth chip, data that is sent by the first terminal and carries the notification information.

The encoding module 420 is configured to encode the data by the control chip to obtain binary data.

The control module 430 is configured to control the speaker to emit sound waves of different frequencies according to the binary data.

The sound wave signal receiving module 440 is configured to receive the sound wave signal through the microphone and transmit the sound wave signal to the second terminal, so that the second terminal obtains the binary data according to the sound wave signal, and parses the notification information.

Preferably, the control module 430 is specifically configured to:

The control speaker outputs the acoustic signal when it represents the number 1, and when the output of the acoustic signal is stopped, it represents the number 0; or

The control speaker outputs the first frequency of the acoustic signal when it represents the number 1, and the output of the second frequency of the acoustic signal represents the number 0.

In summary, in the technical solution, the data forwarding device receives the data carrying the notification information sent by the first terminal through the Bluetooth chip, encodes the data by the control chip to obtain binary data, and controls the speaker to emit sound signals of different frequencies according to the binary data. The binary data is transmitted by the frequency change of the acoustic wave signal, the acoustic wave signal is received by the microphone, and the acoustic wave signal is transmitted to the second terminal, so that the second terminal obtains binary data according to the frequency change of the acoustic wave signal, and the notification information is obtained by parsing. The data forwarding device can forward the notification information received by the first terminal to the second terminal through the communication combination of the speaker and the microphone. For example, the notification information received by the smart phone can be forwarded to the computer for display under various systems, and is compatible. Good sex, so that when users use the computer to work, you don't need to frequently check the mobile phone to know the notification information received by the mobile phone, which does not affect the user's work efficiency. Bluetooth communication is not dependent on the wifi router, and is suitable for scenarios without wifi signals. Low battery.

Embodiment 5

Please refer to FIG. 5 , which is a schematic structural diagram of a data forwarding device according to Embodiment 5 of the present invention. The main difference between this embodiment and the fourth embodiment is that the handshake identification module 510 and the opening module 540 are added.

A data forwarding device 500, which is applied to the data forwarding device in any of the above embodiments, may include the following content:

The handshake identification module 510 is configured to perform handshake identification with the first terminal by using a Bluetooth chip.

The data receiving module 520 is configured to receive, by using a Bluetooth chip, data that is sent by the first terminal and carries the notification information.

The encoding module 530 is configured to encode the data by the control chip to obtain binary data.

The opening module 540 is configured to enable the speaker to continuously output the sound wave signal of the preset frequency for a preset time period, wherein the sound wave signal of the preset frequency is one of the sound wave signals of the different frequencies.

The control module 550 is configured to control the speaker to emit sound waves of different frequencies according to the binary data.

The sound wave signal receiving module 560 is configured to receive the sound wave signal through the microphone and transmit the sound wave signal to the second terminal, so that the second terminal obtains the binary data according to the sound wave signal, and obtains the notification information by parsing.

In summary, in the technical solution, the data forwarding device performs handshake handshake with the first terminal through the Bluetooth chip, and receives data carrying the notification information sent by the first terminal, and encodes the data by the control chip to obtain binary data, and starts the speaker output. The sound wave signal of the preset frequency continues for a preset time length, and the sound wave signal of different frequencies is controlled by the speaker according to the binary data, the binary data is transmitted by the frequency change of the sound wave signal, the sound wave signal is received by the microphone, and the sound wave signal is transmitted to the second terminal. In order for the second terminal to obtain binary data according to the frequency change of the acoustic wave signal, the notification information is obtained by parsing. The data forwarding device can forward the notification information received by the first terminal to the second terminal through the communication combination of the speaker and the microphone. For example, the notification information received by the smart phone can be forwarded to the computer for display under various systems, and is compatible. Good sex, so that when users use the computer to work, you don't need to frequently check the mobile phone to know the notification information received by the mobile phone, which does not affect the user's work efficiency. Bluetooth communication is not dependent on the wifi router, and is suitable for scenarios without wifi signals. Low battery.

Embodiment 6

Please refer to FIG. 6, which is a schematic structural diagram of a data forwarding system according to Embodiment 6 of the present invention.

A data forwarding system 600, including the data forwarding device 1 described in any of the above embodiments, further comprising a first terminal 2 and a second terminal 3;

The first terminal 2 is configured to send data carrying the notification information to the data forwarding device 1.

The data forwarding device 1 is configured to encode the received data to obtain binary data, and send 3 binary data to the second terminal.

The second terminal 3 is configured to receive binary data, parse the notification information, and display the notification information on the display screen.

For example, the main process of the second terminal 3 receiving the binary data is: the second terminal 3 receives the sound wave signal transmitted by the data forwarding device 1 through the microphone in real time, and recognizes the frequency change of the sound wave signal, and the sound wave signal received at intervals of 0.1 second is performed. Frequency identification, for identifying the high frequency sound band recording number 1 with a frequency of 40000HZ, recording the number 0 for the high frequency sound band of 30000HZ, and then combining all the recorded numbers 1 and 0 in the recording order, the code forwarding device 1 can be restored. Binary data.

In summary, in the technical solution, the data forwarding device receives the data carrying the notification information sent by the first terminal, converts the data into binary information, and implements sending the binary information by controlling the frequency change of the sound wave signal sent by the speaker, and The binary data is sent to the second terminal, so that the second terminal parses the binary data to obtain the notification information and displays it. The solution of the embodiment may be implemented to forward the notification information received by the first terminal to the second terminal, and display the content of the notification information in the second terminal, for example, the notification information received by the smart phone may be forwarded to the computer under various systems. The above shows that the compatibility is good, so that when the user works with the computer, the notification information received by the mobile phone can be known without frequently checking the mobile phone, and the working efficiency of the user is not affected. The Bluetooth communication is not dependent on the wifi router, and is applicable to the no-wifi signal. Scene and low power consumption.

Note that the above are only the preferred embodiments of the present invention and the technical principles applied thereto. Those skilled in the art will appreciate that the invention is not limited to the specific embodiments described herein, and that various modifications, changes and substitutions may be made without departing from the scope of the invention. Therefore, though The present invention is described in detail by the above embodiments, but the present invention is not limited to the above embodiments, and other equivalent embodiments may be included without departing from the scope of the present invention. It is determined by the scope of the appended claims.

Claims (11)

1. A data forwarding device, comprising: a signal transmitter and a microphone;

   The signal transmitter includes a main control chip, a Bluetooth chip and a speaker, and the Bluetooth chip and the speaker are both connected to the main control chip;

   The Bluetooth chip is configured to receive notification information sent by the first terminal by using Bluetooth;

   The main control chip is configured to convert the notification information into binary information;

   The speaker for transmitting the binary information by a frequency change of an acoustic signal;

   The microphone is configured to receive the sound wave signal and send the sound wave signal to a second terminal.
2. The device of claim 1 wherein said speaker is a tweeter.
3. A data forwarding method, the method is applied to the data forwarding device according to any one of claims 1-2, the method comprising:

   Receiving, by the Bluetooth chip, data carrying the notification information sent by the first terminal;

   Encoding the data by the control chip to obtain binary data;

   Controlling, by the binary data, the sound waves signals of the speakers to different frequencies;

   Receiving, by the microphone, the acoustic wave signal, and transmitting the acoustic wave signal to a second terminal, so that the second terminal obtains the binary data according to the acoustic wave signal, and parses the notification information.
4. The method according to claim 3, wherein said controlling said speaker to emit sound waves of different frequencies according to said binary data comprises:

   The control speaker outputs the acoustic signal when it represents the number 1, and when the output of the acoustic signal is stopped, it represents the number 0; or

   The control speaker outputs the first frequency of the acoustic signal when it represents the number 1, and the output of the second frequency of the acoustic signal represents the number 0.
5. The method of claim 4 wherein said controlling according to said binary data Before the speaker emits sound signals of different frequencies, the method further includes:

   The speaker is turned on to continuously output a sound wave signal of a preset frequency within a preset time period, wherein the sound wave signal of the preset frequency is one of the sound wave signals of the different frequencies.
6. The method according to any one of claims 3-5, wherein before the receiving, by the Bluetooth chip, the data that is sent by the first terminal and carrying the notification information, the method further includes:

   Handshake identification with the first terminal by the Bluetooth chip.
7. A data forwarding device, the device being applied to the data forwarding device according to any one of claims 1-2, the device comprising:

   a data receiving module, configured to receive, by using the Bluetooth chip, data that is sent by the first terminal and that carries the notification information;

   An encoding module, configured to encode the data by the control chip to obtain binary data;

   a control module, configured to control the speaker to emit sound waves of different frequencies according to the binary data;

   And a sound wave signal receiving module, configured to receive the sound wave signal through the microphone, and transmit the sound wave signal to a second terminal, so that the second terminal obtains the binary data according to the sound wave signal, and obtains the Notification information.
8. The device according to claim 7, wherein the control module is specifically configured to:

   The control speaker outputs the acoustic signal when it represents the number 1, and when the output of the acoustic signal is stopped, it represents the number 0; or

   The control speaker outputs the first frequency of the acoustic signal when it represents the number 1, and the output of the second frequency of the acoustic signal represents the number 0.
9. The device of claim 8 further comprising:

   Opening a module for turning on the sound wave signal that the speaker continuously outputs the preset frequency within a preset time period No., wherein the sound wave signal of the preset frequency is one of the sound wave signals of the different frequencies.
10. The device of any of claims 7-9, further comprising:

    The handshake identification module is configured to perform handshake identification with the first terminal by using the Bluetooth chip.
11. A data forwarding system, the system comprising the data forwarding device of any one of claims 1-2, the system further comprising a first terminal and a second terminal;

    The first terminal is configured to send data carrying the notification information to the data forwarding device;

    The data forwarding device is configured to encode the received data to obtain binary data, and send the binary data to the second terminal;

    The second terminal is configured to receive the binary data, parse the obtained notification information, and display the notification information on a display screen.

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