CN111245980A

CN111245980A - Split type mobile terminal and voice control method thereof

Info

Publication number: CN111245980A
Application number: CN201811446523.3A
Authority: CN
Inventors: 杨鑫
Original assignee: Guangdong Oppo Mobile Telecommunications Corp Ltd
Current assignee: Guangdong Oppo Mobile Telecommunications Corp Ltd
Priority date: 2018-11-29
Filing date: 2018-11-29
Publication date: 2020-06-05
Anticipated expiration: 2038-11-29
Also published as: CN111245980B

Abstract

The application provides a split type mobile terminal and a voice control method thereof. The split type mobile terminal comprises a host end and a screen end which are detachable and can be communicated with each other, wherein the host end is provided with a first voice module, the screen end is provided with a second voice module, and the voice control method comprises the following steps: receiving input of a user; determining a main body selected by a user for receiving sound according to the input of the user; if the user selects the main body of the radio as the selection screen end, receiving the voice of the user through the second voice module and sending the voice to the host end; if the user selects the main body of the radio reception as the host selection end, the voice of the user is received through the first voice module. In this way, the screen end and the host end can be separated, so that the weight and the volume of the screen end are reduced, and the use of a user is facilitated.

Description

Split type mobile terminal and voice control method thereof

Technical Field

The present application relates to the field of voice control technologies, and in particular, to a split-type mobile terminal and a voice control method thereof.

Background

With the rapid development of the mobile communication industry, mobile terminals, such as mobile phones, become the most popular and popular communication consumer products. Under the conditions that the functions of the mobile terminal are more and more, and the performance is stronger, narrow frames and large screens become trends. However, the size of the battery, the number of processors, and other elements are also increased, which makes the existing mobile terminal inconvenient to carry.

Disclosure of Invention

The application provides a split type mobile terminal's speech control method, split type mobile terminal is including host computer end and the screen end that can dismantle and intercommunicate, and the host computer end is provided with first pronunciation module, and the screen end is provided with second pronunciation module, and the speech control method includes: receiving input of a user; determining a main body selected by a user for receiving sound according to the input of the user; if the user selects the main body of the radio as the screen end, receiving the voice of the user through the second voice module and sending the voice to the host end; if the user selects the main body of the radio as the host end, the voice of the user is received through the first voice module.

The application also provides a split type mobile terminal, which comprises a host end and a screen end, wherein the host end and the screen end can be detached and can be mutually communicated; the first voice module is used for receiving the voice of the user when the user selects the main body of the radio as the host end; the second voice module is used for receiving the voice of the user when the user selects the main body of the radio as the screen end and sending the voice to the host end.

The split type mobile terminal comprises a host end and a screen end, wherein the host end and the screen end can be detached and can be communicated with each other, the host end is provided with a first voice module, the screen end is provided with a second voice module, and the voice control method comprises the following steps: receiving input of a user; determining a main body selected by a user for receiving sound according to the input of the user; if the user selects the main body of the radio as the screen end, receiving the voice of the user through the second voice module and sending the voice to the host end; if the user selects the main body of the radio as the host end, the voice of the user is received through the first voice module. Therefore, through the mode, the screen end and the host end can be separated, so that the weight and the size of the screen end are reduced, convenience is brought to a user to use, in addition, the first voice module or the second voice module can freely receive voice of the user, convenience is brought to the user to use, and user experience is improved.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a split-type mobile terminal according to an embodiment of the present disclosure;

fig. 2 is a schematic structural diagram of an embodiment of the split type mobile terminal shown in fig. 1;

fig. 3 is a schematic structural diagram of another embodiment of the split type mobile terminal shown in fig. 1;

fig. 4 is a schematic structural diagram of still another embodiment of the split type mobile terminal shown in fig. 1;

fig. 5 is a flowchart illustrating a voice control method of a split-type mobile terminal according to an embodiment of the present application;

fig. 6 is a flowchart illustrating a voice control method for a split-type mobile terminal according to an embodiment of the present application;

fig. 7 is a flowchart illustrating a voice control method of a split-type mobile terminal according to an embodiment of the present application.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application. It is to be understood that the specific embodiments described herein are merely illustrative of the application and are not limiting of the application. It should be further noted that, for the convenience of description, only some of the structures related to the present application are shown in the drawings, not all of the structures. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

Referring to fig. 1, fig. 1 is a schematic structural diagram of a split-type mobile terminal according to an embodiment of the present disclosure. As shown in fig. 1, the split type mobile terminal 10 of the present embodiment includes a host terminal 11 and a screen terminal 12 that are detachable and can communicate with each other. The host end 11 can perform information processing of communication, for example, send or receive information sent by the network to the network, and then send the information to the screen end 12, so that the user can receive required information only by holding the screen end 12, for example, can make a call, watch video and the like through the screen end 12. The detachable host end 11 and the screen end 12 can be selectively assembled together or detached according to the use condition. For example, if the range of motion of the user is small, such as in a home, the host end 11 and the screen end 12 may be separated, the host end 11 is placed at a fixed position, the user only needs to hold the screen end 12, and the screen end 12 with a small size may be convenient for the user to use. For another example, if the user needs to go out, the host end 11 and the screen end 12 can be assembled together and then carried, which is convenient for the user to carry.

The host 11 may include a WiFi (Wireless Fidelity) module 111, a Bluetooth (BT) module 112, a GPS (Global Positioning System) module 113, a System chip 114, a battery 115, a radio frequency module 116, a storage module 117, and a voice module 118.

The screen end 12 may include a WiFi module 121, a Bluetooth (BT) module 122, a GPS module 123, a system chip 124, a battery 125, a SIM card 126, and a voice module 127.

The host end 11 and the screen end 12 can establish a communication connection through the

WiFi modules

111 and 121, and can also establish a communication connection through the

bluetooth modules

112 and 122. Specifically, when the host end 11 and the screen end 12 are far away from each other, a communication connection can be established through the

WiFi modules

111 and 121; when the host terminal 11 and the screen terminal 12 are close to each other, a communication connection can be established through the

WiFi modules

111 and 121 or through the

bluetooth modules

112 and 122.

The GPS module 113 is used to locate the position of the host end 11.

The system chip 114 may include a baseband processor (AP) and a modem (modem). The baseband processor can decode the received baseband signal, and the modem mainly completes the Gaussian Minimum Shift Keying (GMSK) modulation/demodulation mode required by the GSM system.

The battery 115 is used to supply power to other components of the host end 11.

The rf module 116 includes an rf Front End Module (FEM), which specifically includes an Antenna Tuner (Antenna Tuner), an rf switch, a PA module, and so on. For receiving and transmitting radio frequency signals.

With the popularity of CMOS RFICs (complementary metal oxide semiconductor radio frequency integrated circuits), more and more modules are being moved from discrete devices to integrated circuits. However, there are devices that for various reasons cannot currently be integrated onto conventional CMOS RFICs. These radio frequency devices that cannot be integrated onto RFICs are commonly referred to as radio frequency front end modules (RF FEMs). The FEM is further from the baseband and closer to the antenna.

The storage module 117 includes a RAM (random access memory) and a ROM (Read-only memory). The RAM loses its memory contents when power is off, and is therefore mainly used for storing programs for short-term use. A ROM is a solid-state semiconductor memory that can only read out data stored in advance.

The voice module 118 is used for receiving a voice signal of a user.

The GPS module 113 is used to locate the position of the screen end 12.

The system-on-chip 124 is used to process the received information for display at the screen end 12.

The battery 125 is used to provide power to other components of the screen end 12.

A SIM card 126(Subscriber identity Module) GSM digital mobile phone must be equipped with the SIM card 126 for use.

The SIM card 126 stores the information of the digital mobile phone user, the encrypted key, the phone book of the user, and other contents, which can be used for the identification of the GSM network user and for encrypting the voice information when the user is talking.

In another embodiment, a SIM card may also be provided in the host end 11. That is, based on the communication connection between the host end 11 and the screen end 12, the telephone function of the user can be realized by only one of them setting the SIM card.

The voice module 127 is used for receiving a voice signal of a user.

Because the host end 11 and the screen end 12 both include the voice module, that is, both the host end 11 and the screen end 12 can be used to receive the voice of the user, the main body with better sound receiving effect can be selected to execute the sound receiving operation according to the actual situation in the using process.

In a specific application, the input of the user is received first, and then the body of the sound reception selected by the user is determined according to the input, that is, whether the body of the sound reception selected by the user is the screen end 12 or the host end 11 is determined. If the user selects the main body of the radio receiver to be the screen terminal 12, the second voice module 127 is used to receive the voice of the user, and further the communication module such as the WiFi module 121 or the bluetooth module 122 is used to send the received voice to the host terminal 11, so as to be processed by the host terminal 11, for example, the radio frequency module 116 of the host terminal 11 can send the voice.

If the user selects the main body of the radio receiver to be the host end 11, the voice of the user is received through the first voice module 118, and the voice can be further transmitted through the radio frequency module 116.

The user input can be input on the screen end 12 by touching the screen, or can be input on the screen end 12 by means of keys or voice. Similarly, the input may be performed by a key or voice on the host terminal 11.

The mode of determining that the user selects the radio reception subject may be determined according to a preset rule, for example, the preset rule is: if the user only clicks the corresponding dialing or connecting button when dialing or receiving a call, the screen terminal 12 is selected by default to receive the sound, and if the user clicks the hands-free button after clicking the corresponding dialing or connecting button, the host terminal 11 is selected by default to receive the sound.

The mode of determining the sound reception subject selected by the user can also be used for providing a selection window for the user to select when the sound reception is needed, for example, a window can be popped up when a call is made, and the user is prompted to select the sound reception of the host end 11 or the sound reception of the screen end 12.

In one embodiment,

voice modules

118 and 127 may include microphones, as shown in FIG. 2. One of the microphone 1181 at the host end 11 and the microphone 1271 at the screen end 12 is a unidirectional microphone, the other is an omnidirectional microphone, or both are unidirectional microphones, or both are omnidirectional microphones.

In one embodiment, microphone 1181 may be configured as an omni-directional microphone and microphone 1271 may be configured as a unidirectional microphone. Then in the case where the user makes a call while holding the screen end 12, i.e., in the case where hands-free is not selected, the subject selected by the user to receive the sound can be directly defaulted to the microphone 1271 of the screen end 12. When a call is made in the hands-free scene, the microphone 1181 of the host end 11 with better sound receiving effect can be used for sound reception. In the meeting recording scene, the microphone 1181 of the host end 11 with better sound receiving effect can be used for sound reception, and the screen end 12 can perform normal display operation.

In one embodiment, as shown in fig. 3, the screen side 12 further includes a wake-up module 128, and the host side 11 includes a wake-up module 119. When the user selects the main body of the sound reception to be the host end 11 and the screen end 12, the microphone 1181 or the microphone 1271 receives the voice of the user, and displays a wake-up prompt to the user through the wake-up module 128 and the wake-up module 119 after the voice is successfully received.

That is, the user can also select the host end 11 and the screen end 12 to receive the voice together, and the determination process can be determined by a preset specific statement or a specific rule, for example, by a specific statement like "siri, xiana, Google Assistant, rhinoceros" and so on to determine that the subject of the sound reception selected by the user is the host end 11 and the screen end 12.

If the microphone 1271 or the microphone 1181 receives a specific sentence indicating that the user selects the host end 11 and the screen end 12 to receive the voice together, a wake-up prompt is displayed to the user through the wake-up module.

The wake-up module may include a low power processor that may be turned on at all times when the user does not select any of the subjects to receive sound. The microphone is always on. The wake-up module may further include a prompting element, such as a flash or a motor, which may alert the user by flashing the flash or vibrating the motor.

In one particular application, the processors of the

wake modules

119 and 128 are in an on state. If the user cannot find the split mobile terminal, a specific wake-up statement can be sent to the surroundings, such as: siri. If the omnidirectional microphone 1181 receives the wakeup statement, it is determined that the main body of the user selecting radio reception can be the host end 11 and the screen end 12, and the voice is sent to the corresponding wakeup module 119, and the processor in the wakeup module 119 controls the corresponding prompt element to send a prompt to the user, and further sends the wakeup statement to the screen end 12 through the WiFi module 111 or the bluetooth module 112, so as to send a prompt to the user through the processor and the prompt element in the wakeup module in the screen end 12, and help the user to find the split type mobile terminal.

Similarly, if the microphone 1271 receives the wake-up statement, the principle of the wake-up statement is the same as that of the wake-up statement received by the microphone 1181, and the description thereof is omitted here.

In an embodiment, the

voice modules

127 and 118 may further include a speaker. As shown in fig. 4, in comparison with the split type mobile terminal shown in fig. 2, each of the

voice modules

127 and 118 further includes a speaker. That is, voice module 118 may include a microphone 1181 and a speaker 1182, and voice module 127 may include a microphone 1271 and a speaker 1272.

The microphone 1181 receives the voice of the user and sends the voice to the screen end 12 for amplification through the speaker 1272 when the user selects the main body of sound reception as the host end 11. When the user selects the main body of sound reception as the screen end 12, the microphone 1271 receives the voice of the user and sends the voice to the host end 11 to be amplified through the speaker 1182.

The manner in which the user selects the main body of the radio receiver as the host terminal 11 or the screen terminal 12 is as described above, and is not described herein again.

In a particular application, short-range free speech may be implemented. Specifically, when the user holds the screen end 12 and the host end 11, the microphone 1181 of the host end 11 receives the sound of the user holding the host end 11 and sends the sound to the screen end 12 to generate sound through the speaker 1272 of the screen end 12, and similarly, the microphone 1271 of the screen end 12 can receive the sound of the user holding the screen end 12 and send the sound to the host end 11 to generate sound through the speaker 1182 of the host end 11. Telephone functions can be implemented over short distances.

In another specific application, the screen end 12 may be used as a handheld microphone, the host end 11 may be used as a sound box, and the user speaking to the screen end 12 is amplified and emitted by the speaker 1182 on the host end 11, so as to achieve the effect of amplifying sound.

It is understood that, if cost saving is considered, speakers may be provided only on the host end 11 or the screen end 12.

It can be understood that the split-type mobile terminal in fig. 4 may also be added with the wake-up module shown in fig. 3, and when finding a mobile phone, the user may be prompted by amplifying the sound through the speaker.

As mentioned earlier, split type mobile terminal of this application can separate screen end 12 and host computer end 11 to alleviate the weight and the volume of screen end 12, convenience of customers uses, and in addition,

accessible voice module

127 or 118 are free carries out the receipt of user's pronunciation, and convenience of customers uses, improves user experience.

The split type mobile terminal provided by the embodiment of the application can comprise electronic devices such as a smart phone, a tablet computer and vehicle-mounted electronic equipment.

The voice control method thereof will be described based on the split type mobile terminal described above.

Referring to fig. 5, fig. 5 is a flowchart illustrating a voice control method of a split-type mobile terminal according to an embodiment of the present application. It should be noted that the control method shown in fig. 5 is based on the split-type mobile terminal shown in fig. 2. As shown in fig. 5, the voice control method of the present embodiment includes the following steps:

step 51: an input from a user is received.

The user input may be input on the screen end 12 by touching the screen, or may be input on the screen end 12 by pressing keys or by voice. Similarly, the input may be performed by a key or voice on the host terminal 11.

Step 52: and determining the subject selected by the user to receive the sound according to the input of the user.

The step may specifically be performed according to a preset rule to determine the main body of the radio, for example, the preset rule is: if the user only clicks the corresponding dialing or connecting button when dialing or receiving a call, the screen terminal 12 is selected by default to receive the sound, and if the user clicks the hands-free button after clicking the corresponding dialing or connecting button, the host terminal 11 is selected by default to receive the sound.

The mode of determining the main body of the sound reception selected by the user can also be used for providing a selection window for the user to select when the sound reception is needed, for example, a window can be popped up when a call is made, and the user is prompted to select the sound reception at the host end 11 or the sound reception at the screen end 12.

In this step, if the user selects the body of the radio reception as the screen end 12, the process jumps to step 53, and if the user selects the body of the radio reception as the host end 11, the process jumps to step 54.

Step 53: the speech for use is received by the second speech module and sent to the host end 11. For processing by the host end 11, for example, voice may be transmitted through the rf module 116 of the host end 11.

It should be noted that the second voice module is the voice module 127 in the previous embodiment.

Step 54: the speech for is received by the first speech module. It should be noted that the first voice module is the voice module 118 in the previous embodiment.

The screen end 12 can normally display images to the user while receiving sound through the voice module 118 of the host end 11.

In one embodiment,

voice modules

118 and 127 may include microphones. One of the microphone 1181 at the host end 11 and the microphone 1271 at the screen end 12 is a unidirectional microphone, the other is an omnidirectional microphone, or both are unidirectional microphones, or both are omnidirectional microphones.

In one embodiment, microphone 1181 may be configured as an omni-directional microphone and microphone 1271 may be configured as a unidirectional microphone. Then in the case of the user making a call while holding the screen end 12, if the step 51 receives a situation that the user does not select hands-free, it may be determined that the subject selected for the user to receive the sound is the microphone 1271 of the screen end 12. Receiving the input of the user selecting the telephone call in the hands-free scene in step 51, the main body of the sound reception selected by the user can be determined as the microphone 1181 of the host end 11 with better sound reception effect. If the user input received in step 51 is the conference recording scene, it may be determined that the main body for selecting the sound reception for the user is the microphone 1181 of the host end 11 with better sound reception effect, and the screen end 12 may perform normal display operation.

Therefore, by the above mode, the voice of the user can be freely received through the

voice module

127 or 118, so that the use of the user is facilitated, and the user experience is improved.

Referring to fig. 6, fig. 6 is a flowchart illustrating a voice control method for a split-type mobile terminal according to another embodiment of the present application. It should be noted that the control method shown in fig. 6 is based on the split-type mobile terminal shown in fig. 3 above. As shown in fig. 6, the voice control method of the present embodiment includes the following steps:

step 61: and starting the first awakening module and the second awakening module.

The first wake-up module is the wake-up module 119 of the previous paragraph, and the second wake-up module is the wake-up module 128 of the previous paragraph.

Step 62: an input from a user is received.

Step 62 is the same as step 51 described previously.

And step 63: and determining the subject selected by the user to receive the sound according to the input of the user.

Step 63 may be performed in the same manner as that of step 52 described above when determining whether the subject selected by the user as the host side 11 or the screen side 12.

In addition, in step 63, when determining whether to select the host end 11 and the screen end 12 together as the main body of the sound collection, it can be determined by a preset specific sentence or a specific rule, for example, whether the main body of the sound collection of the user is the host end 11 and the screen end 12 can be determined by a specific sentence like "siri, xiana, Google Assistant, rhinoceros", and so on.

In the above determination criteria, if the user selects the main body of the sound collection as the screen end 12, the process goes to step 64, and if the user selects the main body of the sound collection as the host end 11, the process goes to step 65. If the user selects the main body of the sound reception to be the screen end 12 and the host end 11, the step 66 is skipped.

Step 64: the speech for use is received by the second speech module and sent to the host end 11.

Step 64 is the same as step 53 described previously.

Step 65: the speech for is received by the first speech module. It should be noted that the first voice module is the voice module 118 in the previous embodiment.

Step 65 is the same as step 54 described previously.

And step 66: the first microphone or the second microphone receives voice of a user, and displays a wake-up prompt to the user through the first wake-up module and the second wake-up module after the voice is successfully received.

It should be noted that the first microphone is the microphone 1181 and the second microphone is the microphone 1271.

If the microphone 1271 or the microphone 1181 receives a specific sentence indicating that the user selects the host end 11 and the screen end 12 to receive the sentence together, a wake-up prompt is displayed to the user through the wake-up module.

In one particular application, the processors of the

wake modules

119 and 128 are in an on state. If the user cannot find the split mobile terminal, a specific wake-up statement can be sent to the surroundings, such as: siri. If the omnidirectional microphone 1181 receives the wakeup statement, it is determined that the main body of the user selecting the radio is the host end 11 and the screen end 12, and the voice is sent to the corresponding wakeup module 119, and the processor in the wakeup module 119 controls the corresponding prompt element to send a prompt to the user, and further sends the wakeup statement to the screen end 12 through the WiFi module 111 or the bluetooth module 112, so as to send a prompt to the user through the processor and the prompt element in the wakeup module in the screen end 12, and help the user to find the split type mobile terminal.

Referring to fig. 7, fig. 7 is a flowchart illustrating a voice control method of a split-type mobile terminal according to an embodiment of the present application. It should be noted that the control method shown in fig. 7 is based on the split-type mobile terminal shown in fig. 4. As shown in fig. 7, the voice control method of the present embodiment includes the following steps:

step 71: an input from a user is received.

Step 71 is the same as step 51 described previously.

Step 72: and determining the subject selected by the user to receive the sound according to the input of the user.

The manner in which step 72 is determined may be the same as that described above for step 52.

In step 72, if the user selects the body of the sound pickup as the screen side 12, the process goes to step 73, and if the user selects the body of the sound pickup as the host side 11, the process goes to step 74.

Step 73: the second microphone receives the voice of the user and sends the voice to the host end so as to amplify the voice through the first loudspeaker.

Note that the second microphone is the microphone 1271 described above. The first speaker is the speaker 1182 described above.

Step 74: the first microphone receives the voice of the user and sends the voice to the screen end so as to amplify the voice through the second loudspeaker.

Note that the first microphone is the microphone 1181 described above. The second speaker is the speaker 1272 described above.

In a particular application, short-range free speech may be implemented. Specifically, the user holds the screen end 12 and the host end 11 one by one. If the main body selected for the user to receive the sound is determined to be the host end 11, the microphone 1181 of the host end 11 receives the sound of the user holding the host end 11 and sends the sound to the screen end 12, so as to make the sound through the loudspeaker 1272 of the screen end 12. Similarly, if it is determined that the main body selected for sound reception by the user is the screen end 12, the sound of the user holding the screen end 12 is received by the microphone 1271 of the screen end 12 and transmitted to the host end 11 to be sounded through the speaker 1182 of the host end 11. Telephone functions can be implemented over short distances.

In another specific application, if it is determined that the main body selected for the user to receive the sound is the screen end 12, the screen end 12 may be used as a handheld microphone, the host end 11 may be used as a sound box, and the user speaks to the screen end 12 and is emitted through the loudspeaker 1182 on the host end 11 to amplify the sound.

As mentioned earlier, the split-type mobile terminal of the present application can receive the voice of the user freely through the

voice module

127 or 118 with the screen end 12, thereby facilitating the use of the user and improving the user experience.

The above description is only for the purpose of illustrating embodiments of the present application and is not intended to limit the scope of the present application, and all modifications of equivalent structures and equivalent processes, which are made by the contents of the specification and the drawings of the present application or are directly or indirectly applied to other related technical fields, are also included in the scope of the present application.

Claims

1. The voice control method of the split type mobile terminal is characterized in that the split type mobile terminal comprises a host terminal and a screen terminal which are detachable and can be communicated with each other, a first voice module is arranged at the host terminal, a second voice module is arranged at the screen terminal, and the voice control method comprises the following steps:

receiving input of a user;

determining a subject selected by the user to receive sound according to the input of the user;

if the main body of the user selecting radio reception is the screen end, receiving the voice of the user through the second voice module, and sending the voice to the host end;

and if the main body of the user selecting radio reception is the host end, receiving the voice of the user through the first voice module.

2. The voice control method according to claim 1, wherein the first voice module comprises a first microphone, the second voice module comprises a second microphone, and the host further comprises a radio frequency module;

the control method further comprises the following steps:

and the host terminal sends the voice through a radio frequency module.

3. The voice control method of claim 2, wherein one of the first microphone and the second microphone is a unidirectional microphone and the other is an omni-directional microphone.

4. The voice control method according to claim 1 or 3, wherein the step of receiving the voice of the user through the first voice module comprises:

and the screen end displays an image to the user.

5. The voice control method according to claim 3, wherein the host end further comprises a first wake-up module, the screen end comprises a second wake-up module, and the user input is a voice input;

the control method further comprises the following steps:

starting the first awakening module and the second awakening module;

and if the main body of the user selecting radio reception is determined to be the screen end and the host end according to the voice input of the user, the first microphone or the second microphone receives the voice of the user, and a wakeup prompt is displayed for the user through the first wakeup module and the second wakeup module after the voice is successfully received.

6. The voice control method of claim 1, wherein the first voice module comprises a first microphone and a first speaker, and the second voice module comprises a second microphone and a second speaker;

the step that the second voice module receives the voice of the user and sends the voice to the host end comprises the following steps:

the second microphone receives the voice of the user and sends the voice to the host end so as to amplify the voice through the first loudspeaker;

the step of the first voice module receiving the voice of the user comprises:

the first microphone receives the voice of the user and sends the voice to the screen end so as to amplify the voice through the second loudspeaker.

7. A split type mobile terminal is characterized by comprising a host terminal and a screen terminal which are detachable and can be communicated with each other, wherein the host terminal is provided with a first voice module, and the screen terminal is provided with a second voice module;

the first voice module is used for receiving the voice of the user when the user selects the main body of the radio reception as the host end;

the second voice module is used for receiving the voice of the user when the main body of the user selecting radio reception is the screen end, and sending the voice to the main machine end.

8. The split mobile terminal according to claim 7, wherein the host further comprises a radio frequency module for transmitting the voice;

the first voice module comprises a first microphone, the second voice module comprises a second microphone, wherein one of the first microphone and the second microphone is a unidirectional microphone, and the other one of the first microphone and the second microphone is an omnidirectional microphone.

9. The split mobile terminal according to claim 8, wherein the screen side further comprises a first wake-up module, and the host side comprises a second wake-up module;

when the user selects the main body of the radio reception to be the host end and the screen end, the first microphone or the second microphone receives the voice of the user, and the first awakening module and the second awakening module display awakening prompts to the user after the voice is successfully received.

10. The split mobile terminal according to claim 7, wherein the first voice module comprises a first microphone and a first speaker, and the second voice module comprises a second microphone and a second speaker;

when a user selects a main body for receiving sound as a host end, the first microphone receives the voice of the user and sends the voice to the screen end so as to amplify the sound through the second loudspeaker;

when the user selects the main body for receiving the sound to be the screen end, the second microphone receives the voice of the user and sends the voice to the host end so as to amplify the sound through the first loudspeaker.