CN210405570U - Intelligent peripheral - Google Patents

Abstract

The application discloses intelligence peripheral hardware includes: the intelligent peripheral base and the intelligent peripheral tray assembly are mutually independent, the intelligent peripheral tray assembly is replaceable, and the intelligent peripheral base and the intelligent peripheral tray assembly are in contact connection or non-contact connection; the intelligent peripheral tray assembly comprises a tray body, and a role image is arranged on the tray body. The embodiment of the utility model provides an intelligence peripheral hardware includes mutually independent intelligence peripheral hardware base and intelligence peripheral hardware tray subassembly two parts, and intelligence peripheral hardware tray subassembly includes tray body and the role image on this tray body, compares in integral type fuselage structure, the embodiment of the utility model provides an intelligence peripheral hardware can alternate the role image in a flexible way, and the expansibility is better to applicable in more scenes.

Description

Intelligent peripheral

The present application claims priority from a chinese patent application having an application number of 201822009698.X entitled "sound box and base for use with sound box" filed on 30.11.2018, and incorporated herein by reference in its entirety.

Technical Field

The embodiment of the utility model provides an embodiment relates to the electronic equipment field, in particular to intelligence peripheral hardware.

Background

With the development of electronic devices, various intelligent peripherals are increasing, such as intelligent sound boxes, speakers, intelligent cameras and the like.

Most of intelligent peripherals in the related art adopt an integrated body structure, and therefore, the expansibility of the intelligent peripherals in the related art is poor, and the scene is limited.

SUMMERY OF THE UTILITY MODEL

The embodiment of the utility model provides an intelligence peripheral hardware can be used to solve the problem in the correlation technique.

The technical scheme is as follows:

on the one hand, the embodiment of the utility model provides an intelligence peripheral hardware, the intelligence peripheral hardware includes: the intelligent peripheral base and the intelligent peripheral tray assembly are mutually independent, the intelligent peripheral tray assembly is replaceable, and the intelligent peripheral base and the intelligent peripheral tray assembly are in contact connection or non-contact connection;

the intelligent peripheral tray assembly comprises a tray body, and a role image is arranged on the tray body.

The embodiment of the utility model provides a technical scheme brings following beneficial effect at least:

the embodiment of the utility model provides an intelligence peripheral hardware includes mutually independent intelligence peripheral hardware base and intelligence peripheral hardware tray subassembly two parts, and intelligence peripheral hardware tray subassembly is removable, and intelligence peripheral hardware tray subassembly includes tray body and the role image on this tray body, compares in integral type fuselage structure, the embodiment of the utility model provides an intelligence peripheral hardware can alternate the role image in a flexible way, and the expansibility is better to applicable in more scenes.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be 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 without creative efforts.

Fig. 1 is a schematic structural diagram of an intelligent peripheral provided according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of an intelligent peripheral provided according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram illustrating an intelligent peripheral tray assembly according to an embodiment of the present invention;

fig. 4 is a schematic diagram illustrating an intelligent peripheral base provided according to an embodiment of the present invention;

fig. 5 is a schematic structural diagram of an intelligent peripheral base according to an embodiment of the present invention;

fig. 6 shows a schematic structural diagram of a tray body provided according to an embodiment of the present invention;

fig. 7 shows a schematic structural diagram of a tray body provided according to an embodiment of the present invention;

fig. 8 is a schematic view illustrating different viewing angles of a tray body according to an embodiment of the present invention;

fig. 9 is a schematic structural diagram of an intelligent peripheral base according to an embodiment of the present invention;

fig. 10 is a schematic diagram illustrating different viewing angles of an intelligent peripheral base according to an embodiment of the present invention;

fig. 11 is a schematic diagram illustrating a connection position of an intelligent peripheral base and an intelligent peripheral tray according to an embodiment of the present invention;

fig. 12 is a schematic diagram illustrating a connection position of an intelligent peripheral base and an intelligent peripheral tray according to an embodiment of the present invention;

fig. 13 shows a structural diagram of a sound box according to an embodiment of the present invention;

fig. 14 shows a block diagram of a base in accordance with an embodiment of the invention;

fig. 15 is a diagram illustrating a structure of the sound box and the base after being connected with each other according to an embodiment of the present invention;

fig. 16 is a front view schematically illustrating a structure of the speaker box and the base after being connected according to an embodiment of the present invention;

fig. 17 shows a schematic diagram of a speaker pin interface according to an embodiment of the present invention;

fig. 18 shows a pin diagram of a speaker pin interface according to an embodiment of the present invention;

fig. 19 shows a pin diagram of a connection detector according to an embodiment of the invention;

fig. 20 shows a schematic diagram of a base pin interface according to an embodiment of the invention;

fig. 21 illustrates a pin diagram of a base pin interface according to an embodiment of the present invention;

fig. 22 is an exploded view of a combination of a speaker and a base according to an embodiment of the present invention;

fig. 23 shows a schematic structural view of a turntable according to an embodiment of the present invention;

fig. 24 shows a pin diagram of an angle measuring gear according to an embodiment of the present invention;

figure 25 illustrates a block diagram of the internal circuitry portion of the base, in accordance with one embodiment of the present invention;

fig. 26 is a block diagram illustrating an internal circuit portion of an acoustic enclosure according to an embodiment of the present invention;

figure 27 shows a top view of a base according to an embodiment of the present invention;

fig. 28 shows an exploded view of a sound box according to an embodiment of the present invention;

fig. 29 is an exploded view of a cover and a sound box according to an embodiment of the present invention;

figure 30 shows an exploded schematic view of the outboard housing body and seal plate according to one embodiment of the present invention;

fig. 31 is a diagram illustrating a deformation probe as a pin on a base pin interface according to an embodiment of the present invention.

Detailed Description

To make the objects, technical solutions and advantages of the present application more clear, embodiments of the present application will be described in further detail below with reference to the accompanying drawings.

An embodiment of the present application provides an intelligent peripheral, and referring to fig. 1, the intelligent peripheral includes: the intelligent peripheral base 101 and the intelligent peripheral tray assembly 102 are independent of each other, the intelligent peripheral tray assembly is replaceable, and the intelligent peripheral base and the intelligent peripheral tray assembly are in contact connection or non-contact connection.

The intelligent peripheral tray assembly 102 includes a tray body 1021, with a character image 1022 on the tray body 1021.

The embodiment of the utility model provides an intelligence peripheral hardware includes mutually independent intelligence peripheral hardware base and intelligence peripheral hardware tray subassembly two parts, and intelligence peripheral hardware tray subassembly is removable, and intelligence peripheral hardware tray subassembly includes tray body and the role image on this tray body, compares in integral type fuselage structure, the embodiment of the utility model provides an intelligence peripheral hardware except can realizing basic function, can also alternate the role image in a flexible way, and the expansibility is better to applicable in more scenes.

Illustratively, a plug connector can be arranged on the tray body 1021, a limiting groove is arranged on the intelligent peripheral base 101, and the intelligent peripheral tray assembly 102 is plugged into the limiting groove through the plug connector, so that the connection between the intelligent peripheral base 101 and the intelligent peripheral tray assembly 102 is realized. Of course, other connection modes can be adopted, and the application is not limited to this.

For example, taking the smart peripheral as a smart speaker as an example, the appearance of the smart speaker can be as shown in fig. 2 and 3. Because the intelligent peripheral base 101 and the intelligent peripheral tray assembly 102 are independent, the intelligent peripheral tray assembly 102 can be replaced, so that the role images 1022 on the tray body 1021 can be changed, and the intelligent peripheral base and the intelligent peripheral tray assembly can be matched at any time to meet the personalized requirements of users. In addition, the intelligent peripheral tray assembly 102 may also independently implement a sound box function, and details of an example of the intelligent sound box are described in the following description, which are not repeated herein.

It should be understood that the character image 1022 in fig. 2 and 3 is only an example, and the character image 1022 is not limited in the embodiments of the present application. There may be other product form character images 1022 in addition to the character image 1022 shown in fig. 2 and 3.

On the basis of the intelligent peripheral provided by the embodiment of the application, a user can effectively expand according to the use scene of the intelligent peripheral, and the scene requirements of various modes are met. Meanwhile, for users who like to collect role images, only upper image role products need to be purchased, the intelligent peripheral base serves as basic expansion equipment, a whole set of repeated purchasing is not needed, and the value-added purchasing cost of the later stage of the users can be better reduced. In addition, the intelligent peripheral provided by the embodiment of the application can compatibly expand other role images and give the option to the user, so that the product value can be effectively improved, and the user experience is improved to a certain extent.

As an exemplary embodiment, as shown in fig. 4, the intelligent peripheral base 101 includes a base housing, and the material of the base housing may be plastic, metal, or other materials, which is not limited in this application. In addition, the color of the base housing may be black or color, and other options may also be provided, which is not limited in this embodiment of the present application. Further, as shown in fig. 5, the base housing includes, but is not limited to, a processor 10101, and a communication module 10102 connected to the processor 10101 for connecting to a network, a microphone 10103 for collecting voice data, a data processing module 10104 for performing data processing, a speaker 10105, and a power source 10106 inside. Wherein, communication module 10102 can be wireless communication module or wired communication module, and wireless communication module can be the WIFI communication module, and wired communication module can be the RJ45 module, and this embodiment uses the WIFI communication module as an example. The power source 10106 may be a rechargeable battery or a linear power source. The number of the microphones 10103 may be one or more, and the number of the speakers 10105 may be one or more, which is not limited in the embodiments of the present application.

Illustratively, the intelligent peripheral base 101 may be equipped with intelligent peripheral base functions including, but not limited to, one or more of weather forecast and inquiry functions, alarm clock, music playing, news broadcasting, and FM (Frequency Modulation) broadcasting. For example, when the functions of weather forecast, weather inquiry, and the like are implemented, the processor 10101 in the smart peripheral device may control the communication module 10102 to connect to a network, such as a website capable of providing weather inquiry services. After the weather information is acquired, the weather information is played by controlling the loudspeaker 10105.

For another example, when the alarm clock function is implemented, the processor 10101 in the smart peripheral device may perform network connection with a mobile phone, a tablet computer, or another terminal capable of setting the alarm clock function of the user through the communication module 10102, so as to obtain the set alarm clock time. And after the time is reached, a voice prompt is sent out by controlling the loudspeaker 10105 to realize the alarm clock function. Of course, except carrying out the mode that network connection comes to set up the alarm clock time with the help of communication module 10102 with other terminals, the embodiment of the utility model provides an intelligence peripheral hardware can also provide display panel, shows alarm clock setting interface through this display panel to acquire the alarm clock time based on this alarm clock setting interface.

For another example, when the music playing function is implemented, the processor 10101 in the smart peripheral device may connect to a network through the communication module 10102, such as a website capable of providing audio files. After the audio file is obtained, the audio file is played by controlling a loudspeaker 10105 of the intelligent peripheral. In addition, as an optional mode, the intelligent peripheral base 101 has a data interface, and a user may transmit an audio file to the intelligent peripheral through the data interface, for example, connect a data storage device of the user with the data interface, transmit the audio file in the data storage device to the intelligent peripheral, and play the audio file through the speaker 10105 of the intelligent peripheral. The data interface may be any type of data interface, and may be any interface capable of transmitting data. For example, the USB interface may be used, or the bluetooth module may be used, and bluetooth connection is performed through the bluetooth module to perform data transmission. No matter which form of data interface is adopted, in the mode, the user can transmit the audio file to the intelligent peripheral according to personal preference, and therefore the personalized requirements of the user are met. It should be understood that the type of data interface may be varied, that is, the intelligent peripheral base may include one or more data interfaces to support different types of data storage devices connected to the intelligent peripheral.

For another example, when a news broadcast function is implemented, the processor 10101 in the smart peripheral device may connect to a network through the communication module 10102, for example, connect to a website capable of providing news content, acquire a file containing the news content, and then play the file through the speaker 10105 of the smart device. In addition, since the intelligent peripheral base 101 further includes a display screen, news contents subscribed by the user can be set through the display screen, so that the news contents subscribed by the user can be acquired after the communication module 10102 of the intelligent peripheral is connected to the network. Thereafter, the playback is performed through the speaker 10105.

For another example, when the FM broadcast function is implemented, the smart peripheral may connect to a radio station through the communication module 10102 to obtain FM broadcast content. Thereafter, the playback is performed through the speaker 10105.

As an optional mode, the basic function may be triggered by a button to implement the corresponding basic function after the intelligent peripheral is started. If the intelligent peripheral base comprises the trigger buttons corresponding to each basic function, the corresponding basic functions are realized through the trigger buttons corresponding to any basic function. The trigger button may be a mechanical button, for example, or an option displayed on the display screen, where different options correspond to different basic functions. Alternatively, the microphone 10103 may collect voice data, and the processor 10101 may process the voice data to recognize a voice command, thereby controlling the basic functions. In which form, the embodiments of the present application do not limit the present invention.

As an exemplary embodiment, the intelligent peripheral base 101 includes a base housing having an SOC (System on Chip) inside the base housing. An SOC is a system or product formed by combining multiple integrated circuits with specific functions on one chip, wherein the system or product contains a complete hardware system and embedded software carried by the system or product. That is, on a single chip, the functions of one electronic system can be completed. Through the SOC, the intelligent peripheral can be used for data storage, digital signal processing, acoustic capability processing, motor signal processing, wireless signal connection and one or more functions in combination with an operating system to achieve data processing interaction. In the intelligent peripheral provided in the embodiment of the present application, a complete robot shape may be provided, and besides the basic functions described above, voice interaction, action feedback, AI (Artificial Intelligence) guidance, and the like may also be implemented.

The voice interaction means that external voice is recognized through the SOC, and therefore a corresponding response is given. Illustratively, a user sends a voice instruction, and after the intelligent peripheral collects voice data, the intelligent peripheral performs voice recognition on the voice data, and then makes a corresponding response based on a recognition result. For example, when a user issues a voice command "play music" to the intelligent peripheral, the voice data is recognized by the SOC, and then music is played based on the recognition result. For another example, after the user issues a voice command of "how today's weather" to the intelligent peripheral, the voice data is recognized through the SOC, and then the current weather information is acquired based on the recognition result, and the weather information is played.

Illustratively, besides recognizing a voice command sent by a user and realizing a voice interaction function, the SOC can also realize wireless signal connection, so that the intelligent peripheral can communicate with other intelligent peripherals to realize voice interaction among different intelligent peripherals.

The action feedback refers to identifying application scenes through the SOC and controlling the intelligent peripheral tray assembly 102 to move based on different application scenes. For example, when the intelligent peripheral is currently in a music playing scene, the intelligent peripheral tray assembly 102 may be controlled to move at different speeds according to the music tempo.

As an exemplary embodiment, the intelligent peripheral base 101 further comprises a motion rotation mechanism for rotating the intelligent peripheral tray assembly 102 connected to the intelligent peripheral base 101. Illustratively, the motion rotation mechanism may be disposed in a middle region where the intelligent peripheral base 101 and the intelligent peripheral tray assembly 102 are connected. On the motion rotating mechanism, the motion feedback function can be realized. Illustratively, the motion rotation mechanism includes a motor operable under control of the SOC chip to control the speed of movement of the intelligent peripheral tray assembly 102. In addition, the motion rotating mechanism can also be used for realizing sound source positioning. For example, when the voice command sent by the user is detected, the position is determined through the SOC, and the position of the user is determined. If the character image 1022 on the current intelligent peripheral tray assembly 102 is not facing the direction of the voice command of the user, the intelligent peripheral tray assembly 102 can be driven by the motion rotating mechanism to make the character image 1022 not facing the direction of the voice command of the user.

In addition to the above functions, the tray assembly 1021 of the intelligent peripheral tray assembly 102 may also be provided with an ID card. On this basis, the intelligent peripheral base 101 can identify the identity ID card to determine the identity corresponding to the persona 1022 on the intelligent peripheral tray assembly 102. On this basis, the service matched with the intelligent peripheral tray assembly 102 can be provided. For example, in a game application, the functions of character voice preferred recording of the acoustic corpus, TTS (Text To Speech ) Speech synthesis, and special emotional corpus feature can be provided for the recognized identity.

Wherein, providing the role sound preferred recording sound original matching corpus means providing the sound recording corpus matched with the identity. For example, character avatar 1022 is a storytelling character avatar having an individual timbre. In this regard, the acoustic recording data of the object may be acquired, and when the smart peripheral provides a voice playing function after recognizing the character image 1022, the acoustic recording data may be used to provide a tone color matching the character image 1022 to play the voice data.

TTS speech synthesis may be to synthesize text into speech and provide sound data of adapted timbre for the character image 1022. The proprietary emotional corpus feature may provide a corpus that fits the character image 1022 after identifying the identity of the character image 1022. For example, the character avatar 1022 is a game character in a game. After the character image 1022 is recognized, the feature corpus of the game character may be obtained to provide a feature corpus matching the character image 1022 when providing a voice service.

As an exemplary embodiment, besides the manner of setting the motion rotating mechanism on the intelligent peripheral base 101, a motion rotating mechanism may be set on the intelligent peripheral tray assembly 102, and the motion rotating mechanism drives the intelligent peripheral tray assembly 102 to rotate, so as to implement the motion feedback and sound source positioning functions.

The AI guidance is that the characteristics of the role image of the intelligent peripheral are intelligently analyzed through the SOC, and corresponding guidance information is given. For example, the character image is a character in a game, and after the identity of the game character is identified through the SOC, a game strategy based on the game character is provided during the game of the user, and the game strategy is played in the form of voice. Therefore, the AI voice feedback function of the user level or the fighting AI strategy analysis function aiming at the game application program can be realized. When the in-war AI strategy analysis function is implemented, the online and offline user experience is unified by the aid of AI tutoring because the appearance of the character image 1022 on the intelligent peripheral tray component 102 is consistent with that of the game character in the game.

As an exemplary embodiment, the intelligent peripheral has a display lamp on its base housing, in addition to the basic functions described above, as well as voice interaction, motion feedback, and AI guidance. The intelligent peripheral can carry out light feedback through the display lamp. For example, as the character representation 1022 on the intelligent peripheral tray assembly 102 rotates with music, the display lights may illuminate different colors to fit the current music scene, rendering the atmosphere. Furthermore, the display lamp can also be used purely for illumination. When the voice command of turning on the light is sent by the user, the voice command is recognized to control the display lamp to work. Illustratively, the display lamp may be a lamp strip disposed around the connection between the intelligent peripheral base 101 and the intelligent peripheral tray 102. Of course, the display lamp may be one or more independent lamps, which are disposed at corresponding positions of the intelligent peripheral base 101, besides the form of the lamp strip. The product form, the number and the position of the display lamp are not limited in the embodiment of the application.

In an exemplary embodiment, the intelligent peripheral base 101 further has an adapter thereon, and the intelligent peripheral base 101 is connected to the intelligent peripheral tray assembly 102 via the adapter. Illustratively, through the adaptor, the intelligent peripheral base 101 may adapt the intelligent peripheral tray assembly 102 of different character images 1022 to provide services that are compatible with the intelligent peripheral tray assembly 102.

As an exemplary embodiment, the adapter includes a physical interface through which the intelligent peripheral tray assembly is connected to the intelligent peripheral base. The physical interface includes, but is not limited to, a POGO PIN interface, a USB (universal serial Bus) interface, a Type-C (USB hardware interface specification) interface, a lighting interface, and the like, and the form of the physical interface is not limited in the embodiments of the present application.

As an exemplary embodiment, the adapter includes a wireless connection assembly through which the intelligent peripheral tray is connected with the intelligent peripheral base. This wireless connection subassembly can be WIFI coupling assembling, bluetooth coupling assembling and infrared coupling assembling etc. and this application embodiment does not prescribe a limit to wireless connection subassembly equally.

As an exemplary embodiment, the structure of the tray body 1021 on the intelligent peripheral tray assembly 102 may be as shown in fig. 6. Fig. 6 shows an exploded view of the tray body 1021, and the tray body 1021 sequentially includes a bottom case 10211, a magnet 10212, an indicator light board 10213, a main board 10214, an indicator light 10215, and a front case 10216. Wherein, the bottom shell 10211 and the front shell 10216 constitute a shell of the tray body 1021, and the magnet 10212, the indicator lamp panel 10213, the main board 10214 and the indicator light 10215 are located inside the shell.

In addition, in order to enable the indication lamp 10215 to be displayed, a display outlet corresponding to the indication lamp 10215 is provided on the front case 10216, or a position region corresponding to the indication lamp 10215 on the front case 10216 is made of a light-permeable material so that light emitted from the indication lamp 10215 can be transmitted through the front case 10216. The indicator board 10213 may control the on and off of the indicator light 10215 based on the control of the main board 10214. As an exemplary embodiment, the indicator light 10215 may be a colored indicator light, and the indicator light board 10213 may also be used to control the color of the indicator light 10215. The main board 10214 may also store the identification ID of the character image 1022, for example, an ID card may be installed on the main board 10214, in addition to the control indicator board 10213. The ID of the character image 1022 is used to identify which image the character image 1022 is specific to. For example, the intelligent peripheral base 101 may identify the ID of the character image 1022 to provide a service that fits the character image 1022.

Illustratively, the tray assembly 102 may be magnetically coupled to the intelligent peripheral base 101, and the magnet 10212 in the tray assembly 102 is configured to cooperate with the magnet in the intelligent peripheral base 101 to magnetically couple the tray assembly 102 to the intelligent peripheral base 101.

The structure of the assembled tray body 1021 shown in fig. 6 can be as shown in fig. 7, and also refer to the appearance shown in fig. 3, and the view of the tray body 1021 from different angles can be as shown in fig. 8.

Taking the intelligent peripheral as an intelligent sound box as an example, the structure of the intelligent peripheral base 101 may be as shown in fig. 9. In fig. 9, the intelligent peripheral base 101 includes a front shell 1001, a middle shell 1002, and a bottom cover 1003, and the front shell 1001, the middle shell 1002, and the bottom cover 1003 constitute a housing of the intelligent peripheral base 101. The bottom cover 1003 further includes an anti-slip mechanism 1004, for example, the anti-slip mechanism 1004 may be an anti-slip silicone pad.

Inside the housing, above bottom cover 1003, there is a mesh frame assembly and mesh 1005. A horn support 1006 is provided on the frame assembly and the mesh 1005, and at least one of a subwoofer 1007 and a tweeter 1008 is provided on the horn support 1006. Besides, the interior of the shell is provided with a main board 1009 and an MIC board 1010, and the main board 1009 is respectively connected with the MIC board 1010, the heavy woofer 1007 and the tweeter 1008 and used for controlling a microphone on the MIC board 1010 to collect voice data and controlling the heavy woofer 1007 and the tweeter 1008 to play audio. The main board 1009 is further connected with keys 1011, and the outside of the housing may have an outlet for exposing the keys 1011, for example, an outlet adapted to the keys 1011 is provided on the front housing 1001, or an outlet adapted to the keys 1011 is provided on the middle housing 1002. The number of the keys 1011 may be multiple no matter where the outlet is located on the housing, and each key 1011 transmits a different trigger signal to the main board 1009 to trigger the main board 1009 to control the microphone on the MIC board 1010 to collect voice data and control the subwoofer 1007 and the tweeter 1008 to play audio.

To enable data transfer, the intelligent peripheral base 101 further comprises a USB cradle 1012, the USB cradle 1012 having a USB board 1013 thereon. The USB stand 1012 and USB plate 1013 may be disposed above the mesh frame assembly and mesh 1005, and below the subwoofer 1007 and tweeter 1008. The USB board 1013 has a USB interface, and the housing has an outlet adapted to the USB interface so that a USB device can be inserted into the USB interface from outside the housing.

For example, a motion rotating mechanism may be further disposed on the intelligent peripheral base 101, so that the motion rotating mechanism drives the intelligent peripheral tray assembly 102 to rotate, thereby implementing the motion feedback and sound source positioning functions. As shown in fig. 9, the moving and rotating mechanism comprises a bearing 1014, a motor cover bracket 1015, a gear 1016, a sealing cover 1017, a motor (not shown) arranged on the motor cover bracket 1015, a turntable bracket 1018 arranged on the bearing 1014, and a turntable cover 1019 and a turntable (not shown) arranged on the turntable bracket 1018. The gear 1016 is provided with rotation power by a motor, so that the gear 1016 rotates to drive the turntable on the turntable support 1018 to rotate, and the intelligent peripheral tray assembly 102 is driven to rotate.

For the intelligent peripheral base 101 and the intelligent peripheral tray assembly 102, which are magnetically connected, the intelligent peripheral base 101 further comprises a magnet 1020. The magnet 1020 may be located above the turntable cover 1019 and below the front housing 1001. The magnetic connection of the tray assembly 102 to the intelligent peripheral base 101 is achieved by the magnet 1020 on the intelligent peripheral base 101 cooperating with the magnet 10212 in the tray assembly 102 shown in fig. 6.

As for the manner that the intelligent peripheral base 101 is further provided with an adapter, and the intelligent peripheral base 101 is connected with the intelligent peripheral tray assembly 102 through the adapter, as shown in fig. 9, the adapter includes a physical interface, the physical interface includes POGO PIN (spring ejector PIN) 1021 as an example, and dustproof silica gel 1022 is further included around the POGO PIN (spring ejector PIN) 1021.

To increase the lighting effect, the intelligent peripheral base 101 further has a light guide ring 1023 as shown in fig. 9. The light guide ring 1023 may be disposed between the front case 1001 and the middle case 1002.

The view of the intelligent peripheral base 101 shown in fig. 9 from a different perspective as described above can be seen in fig. 10.

As an exemplary embodiment, the intelligent peripheral tray assembly 102 is disposed above the intelligent peripheral base 101; or, the intelligent peripheral tray assembly 102 is disposed around the intelligent peripheral base 101;

or, the intelligent peripheral tray assembly 102 is disposed below the intelligent peripheral base 101;

alternatively, the intelligent peripheral tray assembly 102 is remotely connected to the intelligent peripheral base 101.

As an exemplary embodiment, the intelligent peripheral tray assembly 102 is disposed above the intelligent peripheral base 101, and includes: the bottom of tray body 1021 has the plug connector, the top of intelligence peripheral hardware base 101 has the spacing groove, intelligence peripheral hardware tray subassembly 102 passes through the plug connector and pegs graft to the spacing inslot.

As an exemplary embodiment, the intelligent peripheral tray assembly 102 is disposed below the intelligent peripheral base 101, and includes: the top of tray body 1021 has the plug connector, the bottom of intelligence peripheral hardware base 101 has the spacing groove, intelligence peripheral hardware tray subassembly 102 passes through the plug connector and pegs graft to the spacing inslot.

As an exemplary embodiment, the intelligent peripheral tray assembly 102 and the intelligent peripheral base 101 have magnetism therebetween, and the intelligent peripheral tray assembly 102 and the intelligent peripheral base 101 are connected in a suspension manner and perform data transmission in a non-contact manner. For example, the non-contact mode includes bluetooth, infrared, and the like.

As shown in fig. 11, taking as an example that one of a and B is an intelligent peripheral tray assembly 102 and the other is an intelligent peripheral base 101, fig. 12 includes three positional relationships: 1. is a above B. 2. For a around B, fig. 12 shows only the case on the left side, but also on the right side, front and back. 3. Is a below B. The connection mode of the intelligent peripheral tray assembly 102 and the intelligent peripheral base 101 can be selected by a user, so that the individual requirements of the user can be met.

In addition to the above positional relationships, the intelligent peripheral tray assembly 102 and the intelligent peripheral base 101 may also be electrically connected through a wireless assembly. For example, the wireless component may be a bluetooth module, and the intelligent peripheral tray component 102 is connected to the intelligent peripheral base 101 through bluetooth, so that the intelligent peripheral tray component 102 is disposed around the intelligent peripheral base 101. For another example, the wireless component may be an infrared module, and the intelligent peripheral tray component 102 is connected to the intelligent peripheral base 101 via infrared. Of course, the intelligent peripheral tray assembly 102 and the intelligent peripheral base 101 may also be connected through a WIFI module. The embodiment of the present application does not limit the manner in which the intelligent peripheral tray assembly 102 is electrically connected to the intelligent peripheral base 101.

As shown in FIG. 12, still taking the example where one of A and B is the intelligent peripheral tray assembly 102 and the other is the intelligent peripheral base 101, the remote connection of A and B can be achieved because there may be no contact.

As an exemplary embodiment, the smart peripheral includes, but is not limited to, a smart speaker, an expansion speaker, a micro-projection, a relay base, or a smart camera.

The micro projection can be equipment for providing projection service, and the transfer base can be a wireless hotspot transfer base, a charging transfer base and the like.

It should be noted that no matter what type of the intelligent peripheral is, the functions of the intelligent peripheral can be implemented on the intelligent peripheral base 101, the intelligent peripheral can also be implemented on the intelligent peripheral tray assembly 102, and the functions of the intelligent peripheral can also be implemented on the intelligent peripheral base 101 and the intelligent peripheral tray assembly 102, respectively. The function of the intelligent peripheral is determined based on the type of the intelligent peripheral, for example, the function of the intelligent sound box is to have a sound box function, the function of the intelligent speaker is to have a sound speaker function, and the function of the intelligent camera is to have a camera shooting function.

For example, when the intelligent peripheral is an intelligent sound box, the function of the sound box can be implemented on the intelligent peripheral base 101, the function of the sound box can be implemented on the intelligent peripheral tray assembly 102, and the functions of the sound box can be implemented on the intelligent peripheral base 101 and the intelligent peripheral tray assembly 102 respectively.

For example, when the smart peripheral is an expansion speaker, the speaker function may be implemented in the smart peripheral base 101, the speaker function may be implemented in the smart peripheral tray assembly 102, or the speaker functions may be implemented in the smart peripheral base 101 and the smart peripheral tray assembly 102, respectively.

For another example, when the intelligent peripheral is an intelligent camera, a camera function may be implemented on the intelligent peripheral base 101, a camera function may be implemented on the intelligent peripheral tray assembly 102, and a camera function may be implemented on each of the intelligent peripheral base 101 and the intelligent peripheral tray assembly 102.

For another example, where the intelligent peripheral has a microphone, the microphones may be located on both the intelligent peripheral base 101 and the intelligent peripheral tray assembly 102, respectively.

In addition, when the functions of the intelligent peripheral are implemented on the intelligent peripheral base 101 and the intelligent peripheral tray assembly 102, if the intelligent peripheral base 101 and the intelligent peripheral tray assembly 102 are in non-contact connection, the intelligent peripheral base 101 and the intelligent peripheral tray assembly 102 can respectively execute the functions of the intelligent peripheral. If the intelligent peripheral base 101 and the intelligent peripheral tray assembly 102 are in contact connection, one of the intelligent peripheral base 101 and the intelligent peripheral tray assembly 102 can execute the functions of the intelligent peripheral, and the intelligent peripheral base 101 and the intelligent peripheral tray assembly 102 can be switched. Alternatively, the function of the intelligent peripheral is determined by which of the intelligent peripheral base 101 and the intelligent peripheral tray assembly 102 is to be performed based on the application scenario.

That is to say, the technical solution provided by the embodiment of the present application can be applied to various product forms, one part may be the intelligent peripheral tray assembly 102 with the role image 1022, and one part is the intelligent peripheral base 101. For different product forms, the intelligent peripheral base 101 may be coordinated and adjusted, and the intelligent peripheral tray assembly 102 with the character image 1022 may be adapted to the intelligent peripheral base 101 of different product forms. As such, not only is flexibility increased, but utilization of the intelligent peripheral tray assembly 102 of the character image 1022 may also be increased.

Next, taking the smart speaker as an example, an example of the smart peripheral provided in the embodiment of the present application is described.

The architecture and overall flow for the application of the embodiments of the present disclosure will now be described with reference to fig. 13-15.

As shown in fig. 13, the sound box 1 according to an embodiment of the present invention has a square sound box body 11 and a speaker 12 opened from two opposite sides of the sound box body 11. The sound box can be a common sound box or a Bluetooth sound box.

The general sound box can be in any shape, and a loudspeaker for playing sound can be arranged on any surface. The sound effect of the sound box cannot reach the best. Experiments prove that the tone quality of the sound emitted by the square sound box body is more clear than that of the sound box bodies of other shapes, when the loudspeaker is arranged on two opposite sides of the sound box body, the tone quality of the sound is more clear than that of the sound box arranged on the top surface or other sides, therefore, the utility model discloses a shape of the limiting sound box is a square, and two opposite sides of the sound box body 11 are provided with the open-ended loudspeaker 12, so that the better effect of the sound effect emitted can be achieved.

According to an embodiment of the present invention, a base 2 used in cooperation with the sound box 1 is further provided, as shown in fig. 14. The sound box 1 is an intelligent peripheral tray assembly 102, the base 2 is an intelligent peripheral base 101, and the two are independent of each other. As shown in fig. 13, the sound box 1 has a plug 13 formed to extend downward from the sound box body 11. As shown in fig. 14, the upper surface of the base 2 has a downwardly recessed limiting groove 21. As shown in fig. 15, the inserting portion 13 is inserted into the limiting groove 21 to form an integrated structure of the sound box 1 and the base 2. In this way, the enclosure 1 can be operated alone, with a power source (described in detail below) included therein. For example, it can be used as a bluetooth speaker to receive a control command from a master control device (e.g., a mobile phone used as a control) and a sound to be played, and the sound to be played is played through the bluetooth speaker. The sound box 1 can also be inserted into the base 2 to receive the control command and the sound to be played in the base 2 for playing (described in detail later). When plugged into the base 2, it is not a speaker box that can operate independently, and it receives power from the power source in the base 2 for playback. Therefore, the sound box can have two working modes of independent work and sound for indicating playing in the electric energy playing base 2 in the receiving base 2, a dual-mode working mode is formed, and the application efficiency of the sound box is improved.

In addition, compare in through glue bonding or buckle lock joint's mode between audio amplifier and the base, equipment outward appearance is not destroyed when dismantling to the mode of grafting portion and spacing groove, has realized the flexibility of using.

In one embodiment, as shown in fig. 13, the docking portion 13 includes a docking station 131, and a docking head 132 extending downward from the docking station 131. The cross section of the plug-in platform 131 is smaller than that of the sound box body 11, and the cross section of the plug-in connector 132 is smaller than that of the plug-in platform 131, so that the plug-in connection of the sound box 1 and the base 2 is facilitated in a manner that the cross section is gradually reduced. The docking station 131 may be a square cylinder, a prismatic cylinder, a circular cylinder, an oval cylinder, or the like. The plug 132 may be a square cylinder, prismatic cylinder, circular cylinder, oval cylinder, cone that tapers from top to bottom, pyramid, or the like.

In accordance therewith, as shown in fig. 14, the shape of the limiting groove 21 may be a square cylinder, a prismatic cylinder, a circular cylinder, an oval cylinder, a cone tapering from top to bottom, a pyramid, etc., and the shape thereof matches with the shape of the plug 132, i.e., conforms to the shape of the plug 132. Thus, as shown in fig. 15, when the sound box 1 is mounted on the base 2, the sound box can be firmly coupled to the base, and the sound box can be easily detached from the base.

As shown in fig. 13, a speaker magnetic component 1311 is mounted on the bottom of the plug-in platform 131, and a speaker pin interface 1321 is mounted on the bottom of the plug-in connector 132. The magnetic member may be any member that is magnetically attracted and connected by a magnetic principle, such as a magnet or a magnet. The speaker magnetic component 1311 may be mounted on the edge of the bottom of the docking station 131, or may be mounted elsewhere on the bottom. Enclosure pin interface 1321 contains electrical leads for enclosure 1 to connect to base 2, as shown in fig. 18. It can be mounted at the center of the bottom of the plug 132, or at other positions of the bottom.

As shown in fig. 14, a base magnet 2111 is mounted on the upper surface of the base 2 around the opening of the stopper groove 21. It may be any of a magnet, and the like that are magnetically attracted and connected by a magnetic principle. The bottom of the retaining groove 21 may be fitted with a base pin interface 2121. In one embodiment, the base pin interface 2121 may be mounted at the very center of the base, but the base pin interface 2121 may also be mounted at other locations on the base.

As shown in fig. 15, when the sound box 1 is mounted on the base 2, the base magnetic member 2111 is opposed to the sound box magnetic member 1311, and the magnetic attraction is applied to the base magnetic member 2111, so that the connection is more stable. Meanwhile, the base pin interface 2121 is opposite to the speaker pin interface 1321, and the interfaces are connected, so that the connection between the speaker 1 and the base 2 is more stable. Therefore, the utility model discloses a magnetic force joint and interface joint, dual guarantee the stability that audio amplifier 1 and base 2 are connected. This is also clear from the front view of the enclosure apparatus of fig. 16 after the enclosure 1 has been mounted to the base 2.

Fig. 18 shows a pin diagram of the speaker pin interface 1321, which includes the first audio signal interface 152, the first control signal interface 153, and the first power signal interface 151 in these pins, as shown in fig. 26.

The first audio signal interface 152 is an interface for providing audio signals to be played by the speaker 12. When the loudspeaker box is used independently, the loudspeaker box receives an audio signal to be played, which is transmitted from a control device (such as a mobile phone). When the speaker is not used independently, it receives an audio signal to be played from the base. In one embodiment, the first audio signal interface 152 is an I2S interface.

The first control signal interface 153 is an interface through which the sound box 1 receives a control signal. When the loudspeaker box is used independently, it receives control commands from a control device (such as a mobile phone). When the loudspeaker is not used independently, it receives control commands from the base 2. In one embodiment, the first control signal interface 153 is a serial interface.

The first power signal interface 151 is an interface for supplying power to the horn 12. When the loudspeaker box is used independently, the loudspeaker box is powered by the loudspeaker box power supply 14. When the speaker is not used independently, power is supplied from the base 2 to the speaker via the first power signal interface 151.

Fig. 20 shows a schematic diagram of a base pin interface 2121 according to an embodiment of the invention.

Fig. 21 shows a pin diagram of a base pin interface 2121 according to an embodiment of the present invention.

The base pin interface 2121 includes a second audio signal interface 262, a second control signal interface 263, and a second power signal interface 261, as shown in fig. 25. The location of each pin in base pin interface 2121 corresponds to the location of enclosure pin interface 1321 of fig. 18. Base pin interface 2121 mates with speaker pin interface 1321 when speaker 1 is mounted on base 2. In one embodiment, each pin of the base pin interface 2121 (including the second audio signal interface 262, the second control signal interface 263 and the second power signal interface 261) is a deformation probe that can deform upon being pressed by an external force to achieve better contact. Each pin of the speaker pin interface 1321 (including the first audio signal interface 152, the first control signal interface 153, and the first power signal interface 151) is a non-deformable probe that does not deform when it comes into contact with another object. Thus, when the speaker 1 is mounted on the base 2, the pins of the speaker pin interface 1321 are abutted against the corresponding pins of the base pin interface 2121, wherein the pins of the base pin interface 2121 are deformed, and the pins of the speaker pin interface 1321 are not deformed, so as to achieve the effect of stable contact between the pins of the base pin interface 2121 and the pins of the speaker pin interface 1321.

Fig. 31 is a diagram illustrating a deformation probe as a pin on a base pin interface 2121 according to an embodiment of the present invention. The pins of the base pin interface 2121 may have a maximum length of 7.35mm in operation, a length of 7.00mm in normal operation, and a length of 6.65mm in maximum compression, when the maximum deformation occurs. By means of the deformation of the pins on the base pin interface 2121, a stable docking is achieved when the loudspeaker enclosure 1 is mounted to the base 2.

In one embodiment, as shown in fig. 15, the bottom of the limiting groove 21 is provided with a connection detector 2122 in addition to the base pin interface 2121. The connection detector 2122 is a device for detecting that the sound box 1 is mounted on the base 2, or that pins of the sound box pin interface 1321 are in contact with pins of the base pin interface 2121. Pins of speaker pin interface 1321 are in contact with pins of base pin interface 2121, and do not represent pins of speaker pin interface 1321 interfacing with corresponding pins of base pin interface 2121. The connection detector 2122 is used for detecting that the pins of the speaker pin interface 1321 and the pins of the base pin interface 2121 are in contact, and then enabling the pins of the speaker pin interface 1321 and the corresponding pins of the base pin interface 2121 to be in butt joint, wherein the first audio signal interface 152 is connected to the second audio signal interface 262, the first control signal interface 153 is connected to the second control signal interface 263, and the first power signal interface 151 is connected to the second power signal interface 261, so that transmission of various signals between the speaker 1 and the base 2 when the speaker 1 and the base 2 are in cooperative work is realized.

Fig. 19 shows a pin diagram of a connection detector 2122 according to one embodiment of the invention.

In one embodiment, as shown in fig. 22, the base 2 according to one embodiment of the present invention includes a turntable 22 disposed on an upper surface, a base bracket 298 at a middle portion of the base, and a base chassis 299 at a bottom portion. Wherein, the turntable 22 is a motion rotating mechanism. As shown in fig. 22, when the base 2 is mounted, the base holder 298 is mounted on the base chassis 299, the circuit components such as the base power supply 23 and the base processing unit 24 shown in fig. 25 are put into the base holder 298, and the turntable 22 is placed on the upper portion of the base holder 298.

Fig. 23 shows a specific structure of the turntable 22 according to an embodiment of the present invention. As shown in fig. 23, the base magnetic part 2111 is mounted on the turntable 22 provided on the upper surface of the base 2. Thus, when the turntable 22 rotates, the base magnetic part 2111 is driven to rotate, and the base magnetic part 2111 and the speaker magnetic part 1311 are connected by suction, so that the speaker 1 can be driven to rotate. The turntable 22 is provided with a motor 221, a driving gear 222 driven by the motor, and a driven gear 223 driven by the driving gear 222, wherein the driven gear 223 drives the base 2 to rotate. In one embodiment, the motor 221 may be a stepper motor, but may be other motors. Thus, after the motor 221 receives the control command sent by the base processing unit 24 in fig. 25, the rotation speed of the motor 221 can be adjusted according to the control command, since the motor 221 drives the driving gear 222 to rotate, the driving gear 222 drives the driven gear 223 to rotate, and the driven gear 223 drives the turntable 22 to rotate, the sound box 1 is driven to rotate by means of the base magnetic component 2111, and the sound box 1 can be flexibly rotated according to the control command.

In one embodiment, as shown in fig. 23, the rotary plate 22 may be provided with an angle measuring gear 224 engaged with both the driving gear 222 and the driven gear 223. Thus, when the driving gear 222 and the driven gear 223 rotate, the angle measuring gear 224 senses the rotation angle of the rotary plate 22, and generates an angle signal. The angle measuring gear 224 transmits the angle signal to the motor 221, so that the motor 221 can adjust the control signal output to the motor 221 according to the angle signal, and the rotating speed of the driving gear 222 and the driven gear 223 is adjusted by changing the rotating speed of the motor 221, thereby achieving the effect of accurately controlling the rotating angle of the sound box 1.

Fig. 24 shows a pin diagram of an angle measuring gear according to an embodiment of the present invention.

In one embodiment, the base 2 includes a microphone 27 that opens onto the base 2, as shown in FIG. 25. It may be opened at any position of the base 2, such as the upper part and the side of the base 2, as long as the voice instruction of the user can be collected. As shown in fig. 25, the base 2 further includes: and a base processing unit 224 for outputting a direction control signal to the motor 221 according to the sound signal collected by the sound collector 27. The base processing unit 224 is the processor 10101, and the sound pickup 27 is the microphone 1012. The sound pickup 27 receives the collected sound signal and sends the sound signal to the base processing unit 224. The base processing unit 224 can recognize a voice signal of a person from the collected voice signal, and then judge the orientation of the person based on the voice signal of the person, thereby outputting a direction control signal to the motor 221 according to the orientation of the person. The motor 221 generates a rotation speed for driving the driving gear 222 and the driven gear 223 according to the direction control signal, thereby achieving an effect of controlling the sound box 1 to rotate toward the speaking direction of the person. The motor 221, the driving gear 222 and the driven gear 223 are motion rotating mechanisms. Therefore, this embodiment realizes that the speaker 1 can be flexibly rotated according to the orientation of a person when the person speaks, thereby allowing the person to more clearly hear the sound emitted from the speaker.

As shown in fig. 27, a tuning coil 281 and a tuning coil slide sensor 282 (shown in fig. 25) provided below the tuning coil 281 are provided on the upper surface of the base 2. The tuning coil slide sensor 282 receives the slide signal generated at the tuning coil 281, and sends a volume change signal to the base processing unit 224 provided in the base 2, as shown in fig. 25, thereby adjusting the output of the base processing unit 24 to the audio output unit 25, and changing the volume of the audio output by the audio output unit 25 to the sound box 1.

In one embodiment, the tuning ring 281 is a circular ring shape with an opening left, as shown in fig. 17, but may be other shapes. When the user wants to make the sound volume of the sound box 1 larger or smaller, the user can slide the finger clockwise or counterclockwise along the tuning coil 281. The tuning ring slide sensor 282 is capable of sensing a slide of a finger on the tuning ring 281, i.e., receiving a slide signal generated on the tuning ring 281, and transmitting a volume change signal to the base processing unit 224 provided in the base 2.

In one embodiment, if the finger is slid clockwise on the tuning ring 281, the volume change signal is a signal indicating an increase in volume. If the finger is slid counterclockwise on the tuning ring 281, the volume change signal is a signal indicating that the volume is decreased. But may be reversed.

In one embodiment, the tone tuning ring slide sensor 282 generates a volume change signal proportional to the distance of the finger sliding on the tone tuning ring 281. The long sliding distance of the user indicates that the user wants the volume change to be larger, thereby realizing the flexible control of the volume according to the needs of the user. In another embodiment, the tone tuning ring slide sensor 282 generates a volume change signal proportional to the time of the finger sliding on the tone tuning ring 281. The long time of the user sliding indicates that the user hopes the volume change amount to be larger, thereby realizing the flexible control of the volume according to the user requirement.

After the base processing unit 24 obtains the volume change signal, it generates a control instruction for controlling the audio volume output by the audio output unit 25 according to the volume change signal, and outputs the control instruction to the audio output unit 25, and the audio output unit 25 outputs the sound signal with the adjusted volume, and connects to the first audio signal interface 152 through the second audio signal interface 262, and the sound signal is played by the speaker 12 in the sound box 1.

In this embodiment, the sound volume of the sound box 1 can be flexibly adjusted as required by the arrangement of the tuning ring 281 and the tuning ring sliding sensor 282 on the base 2.

As shown in fig. 28, in one embodiment, the sound box 11 includes an outer casing 111 and an inner casing 112 located inside the outer casing 111. The enclosure 1 is carried in an inner housing 112. Outer shell 111 may be used to implement different poses, i.e., different character images 1022. For example, in the case of a human face speaker, the human face of a different person printed on the outer casing 111 can be replaced by a different human face, that is, a different character image. For example, the outer shell 111 may be printed with a luer-type face or a Liu-Bei face to achieve different figures. The double-layer shell structure has the function of facilitating the replacement of the loudspeaker box model. When the speaker model is replaced, the inner case 112 may not be replaced, and only the outer case 111 may be replaced. Further, the cabinet 11 may include a tray body 1021 in addition to the outer case 111. The outer casing 111 may be located on the tray body 1021, and the sound box 1 and the base 2 are connected through the tray body 1021. For example, the tray body 1021 has a plugging portion 13 formed extending downward. As shown in fig. 10, the upper surface of the base 2 has a downwardly recessed limiting groove 21. The inserting part 13 is inserted into the limiting groove 21 to form an integrated structure of the sound box 1 and the base 2.

As shown in fig. 28, in one embodiment, the inner case 112 and the outer case 111 are fixed by a first fixing member 113. In one embodiment, the first fixing member 113 is a screw and a screw hole, but may be other fixing members. The outer case 111 and the inner case 112 are fixed to each other by screwing screws into screw holes of the outer case 111 and the inner case 112.

The speaker 12 is disposed on two opposite sides of the inner housing 112. The outer case 111 has horn openings 114 on its side surfaces corresponding to the two opposite side surfaces, and exposes the horn 12. The significance of the horn opening 114 is that since the horn is not replaced with a different style of housing, it is necessary to provide a horn opening 114 on the inner housing 112, thus exposing the horn 12.

As shown in fig. 29 and 30, the sound box 1 includes a cover 191 provided on the upper surface of the outer case 111. The cover 191 serves to prevent dust from falling into the interior of the sound box 1, and also serves as a decorative effect, for example, a cap that can serve as a character of the sound box. The outer case 111 includes an outer case main body 193 and a mounting opening 194 provided at one side surface of the outer case main body 193.

The outer case body 193 serves to form a tight protection structure for protecting the cabinet 1 therein from being crushed and collided, except for the mounting opening 194. Mounting opening 194 functions to facilitate the ingress and egress of internal components (e.g., inner housing 112) during installation. In one embodiment, the outer housing 111 is a cube having a mounting opening 194 on a rear side thereof and no openings on the remaining 5 sides, forming a continuous, unitary structure, namely the outer housing body 193.

The cover 191 and the outer case body 193 are fixed by a second fixing member 192. In one embodiment, the second fasteners 192 are screws and threaded holes, but may be other fasteners. For example, screw holes are formed at corresponding positions of the cover 191 and the outer case body 193, and screws are screwed into the screw holes in the cover 191 and the outer case body 193, thereby firmly fixing the cover 191 to the cabinet 1. The cover 191 and the outer casing body 193 are fixed by the second fixing member 192, and compared with the way that a buckle extends out of the bottom of the cover 191, the buckle is clamped into a clamping hole of the outer casing body 193, the cover 191 is not easy to fall off, and the connection between the cover 191 and the sound box 1 is tighter.

In one embodiment, as shown in FIG. 30, the outer housing 111 includes a seal plate 195 that covers the mounting opening. The outer case body 193 and the sealing plate 195 are fixed by a third fixing member 196. In one embodiment, the third fasteners 196 are screws and threaded holes, but may be other fasteners. For example, screw holes are provided at each corner of the sealing plate 195, and screw holes are correspondingly provided at four corners of the mounting opening 194, so that the sealing plate 195 tightly seals the mounting opening 194 through the screw holes and the screw holes by screwing the screw into the screw hole of the sealing plate 195 and then screwing the screw into the screw hole of the mounting opening 194. With such a structure, the content of the sound box 1 can conveniently enter and exit the interior of the sound box 1 through the mounting opening 194, and the sound box 1 is tightly sealed by the third fixing member 196, so as to prevent the content of the sound box 1 from falling out.

In addition, in one embodiment, as shown in fig. 25, the base 2 includes a base power supply 23, a base processing unit 24, and an audio output unit 25, and further includes a voice coil slide sensor 282, a pickup 299, and a motor 221. The roles of the tone tuning band slide sensor 282, the pickup 299, and the motor 221 have been described above, and the base power supply 23, the base processing unit 24, and the audio output unit 25 are described below. The base power supply 23 functions to supply power to the sound box 1 when the sound box 1 is mounted to the base 2. The base processing unit 24 is a core processing component in the base. It can generate the audio signal to be played, and the audio signal is transmitted to the speaker 12 in the sound box 1 through the second audio signal interface 262 and the first audio signal interface 152 via the audio output unit 25 for playing. The sound pickup device can also recognize human voice according to the voice collected by the sound pickup 299, the motor 221 outputs a direction control signal according to the direction of the human voice, and the driving gear 222 and the driven gear are driven by the motor 221, so that the sound box 1 can turn to the speaking direction of the human. It can also adjust the output of the audio output unit 25, and ultimately the effect of adjusting the volume produced by the speaker 12 of the enclosure 1, based on the volume change signal produced by the tone tuning ring slide sensor 282 in response to the sliding of a person's finger on the tone tuning ring 281. The audio output unit 25 is a device that forms a sound signal to be played from the speaker according to the instruction of the base processing unit 24. The indication by the base processing unit 24 indicates only the sound to be played and the volume to be played, but the formation of the signal to be played is done by the audio output unit 25. Through the internal circuit structure of the base 2, the effects of accurately controlling the content and volume of the output sound and the rotating angle of the sound box 1 are achieved.

As shown in fig. 26, the base power supply 23 is connected to the base processing unit 24, and the base processing unit 24 is connected to the audio output unit 25. The base power supply 23 is connected to the second power signal interface 261, the base processing unit 24 is connected to the second control signal interface 263, and the audio output unit 25 is connected to the second audio signal interface 262. The second power signal interface 261 is an interface for supplying the audio amplifier 1 with power necessary for playing sound when the audio amplifier 1 is mounted on the base 2. The second control signal interface 263 is an interface for outputting a control signal to the audio amplifier 1 when the audio amplifier 1 is mounted on the base 2. Second audio signal interface 262 is an interface that outputs, for loudspeaker 1, the sound to be played by loudspeaker 1 when loudspeaker 1 is mounted on base 2.

In one embodiment, as shown in fig. 26, the enclosure 1 includes an enclosure power supply 14, an enclosure processing unit 16, and a speaker 12. The enclosure power supply 14 is a power supply required to play sound when the enclosure 1 operates independently, i.e., is not mounted on the base 2. The enclosure 1 is inoperative when mounted on the base 2 and relies on the base power supply 23 in the base 2 for operation. The speaker processing unit 16 is a core processing chip in the speaker 1, and performs data processing required when the speaker 1 plays sound. The enclosure power supply 14 is connected to an enclosure processing unit 16. A loudspeaker processing unit 16 is connected to the loudspeaker 12. The first power signal interface 151, the first audio signal interface 152, and the first control signal interface 153 are all connected to the speaker processing unit 16. The first power signal interface 151 is connected to the second power signal interface 261, and functions to supply the power output from the base power supply 23 to the audio amplifier 1 when the audio amplifier 1 is mounted on the base 2. The first audio signal interface 152 is connected to the second audio signal interface 262, and plays a role of transmitting the sound signal to be played, which is generated by the audio output unit 25 of the base 2, to the sound box 1 for playing. The first control signal interface 153 is connected to the second control signal interface 263, and plays a role of transmitting the control signal transmitted from the base 2 to the sound box 1. Through the structure, the excellent control of the sound played inside the sound box 1 is realized.

As shown in fig. 26, in one embodiment, the enclosure power supply 14 and the first power signal interface 151 are connected to the base processing unit 24 through a switching circuit 199 provided in the enclosure 1. When the speaker 1 is mounted on the base 2, i.e. not working independently, the power signal can be received from the first power signal interface 151, and at this time, the switch circuit 199 is disconnected from the speaker power supply 14, and the speaker works by directly using the electric energy generated by the base power supply 23 in the base 2. When the sound box 1 is not mounted on the base 2, i.e. works independently, the switch circuit 199 disconnects the first power signal interface 151 when no power signal is received from the first power signal interface 151, and keeps the connection with the sound box power supply 14, and works by the sound box power supply 14 inside the sound box 1. Thus, the on-off connection of the switch circuit 199 inside the sound box 1 ensures that the sound box 1 can work in two modes of the self-contained power supply and the external power supply, and realizes a dual-mode working mode.

It should be understood that reference to "a plurality" herein means two or more. "and/or" describes the association relationship of the associated objects, meaning that there may be three relationships, e.g., a and/or B, which may mean: a exists alone, A and B exist simultaneously, and B exists alone. The character "/" generally indicates that the former and latter associated objects are in an "or" relationship.

The above embodiment numbers of the present invention are only for description, and do not represent the advantages and disadvantages of the embodiments.

The above description is only exemplary of the present application and should not be taken as limiting the present application, and any modifications, equivalents, improvements and the like that are made within the spirit and principle of the present application should be included in the protection scope of the present application.

Claims (15)

1. An intelligent peripheral, comprising: the intelligent peripheral base and the intelligent peripheral tray assembly are mutually independent, the intelligent peripheral tray assembly is replaceable, and the intelligent peripheral base and the intelligent peripheral tray assembly are in contact connection or non-contact connection;

the intelligent peripheral tray assembly comprises a tray body, and a role image is arranged on the tray body.

2. The intelligent peripheral of claim 1, wherein the intelligent peripheral base comprises a base housing having a processor therein, and a communication module connected to the processor for connecting to a network, a microphone for collecting voice data, a data processing module for data processing, a speaker, and a power source.

3. The intelligent peripheral of claim 1, wherein the intelligent peripheral dock comprises a dock housing having a system-on-chip inside the dock housing.

4. The intelligent peripheral of claim 2 or 3, wherein the base housing has a display light thereon.

5. The intelligent peripheral of any one of claims 1-3, wherein a display screen is provided on the intelligent peripheral base.

6. The intelligent peripheral of any one of claims 1-3, wherein the intelligent peripheral base has a data interface thereon.

7. The intelligent peripheral of any one of claims 1-3, further comprising an adapter on the intelligent peripheral base, the intelligent peripheral base being coupled to the intelligent peripheral tray assembly via the adapter.

8. The intelligent peripheral of claim 7, wherein the adaptor comprises a physical interface, or a wireless connection component.

9. The intelligent peripheral of any one of claims 1-3, wherein the intelligent peripheral base further comprises a motion rotation mechanism, the motion rotation mechanism configured to rotate an intelligent peripheral tray assembly coupled to the intelligent peripheral base.

10. The intelligent peripheral of any one of claims 1-3, wherein the intelligent peripheral tray assembly has a motion rotation mechanism, the motion rotation mechanism configured to rotate the intelligent peripheral tray assembly.

11. The intelligent peripheral of any of claims 1-3, wherein the intelligent peripheral tray assembly is disposed above the intelligent peripheral base;

or the intelligent peripheral tray assembly is arranged around the intelligent peripheral base;

or the intelligent peripheral tray assembly is arranged below the intelligent peripheral base;

or the intelligent peripheral tray assembly is remotely connected with the intelligent peripheral base.

12. The intelligent peripheral of claim 11, wherein the intelligent peripheral tray assembly is disposed above the intelligent peripheral base, comprising:

the bottom of tray body has the plug connector, the top of intelligence peripheral hardware base has the spacing groove, intelligence peripheral hardware tray subassembly passes through the plug connector and pegs graft to the spacing inslot.

13. The intelligent peripheral of claim 11, wherein the intelligent peripheral tray assembly is disposed below the intelligent peripheral base, comprising:

the top of tray body has the plug connector, the bottom of intelligence peripheral hardware base has the spacing groove, intelligence peripheral hardware tray subassembly passes through the plug connector and pegs graft to the spacing inslot.

14. The intelligent peripheral according to any one of claims 1 to 3, wherein the intelligent peripheral tray assembly and the intelligent peripheral base are magnetically coupled to each other, and data transmission is performed between the intelligent peripheral tray assembly and the intelligent peripheral base in a non-contact manner by suspension coupling.

15. The intelligent peripheral of any one of claims 1-3, wherein the intelligent peripheral comprises an intelligent speaker, an expansion speaker, a micro-projection, a relay base, or an intelligent camera.

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