CN112965392A - Early education robot system and method capable of being gnawed - Google Patents

Abstract

The invention discloses a gnawing early education robot system and a method, wherein the early education robot system comprises an early education robot, parent-end equipment and a server; the early education robot comprises a robot shell, wherein a plurality of gnawing convex parts made of gnawing materials are arranged on the outer surface of the robot shell; the robot comprises a robot shell, and is characterized in that a control device is arranged in the robot shell and comprises a sensor module, a voice acquisition module, a voice playing module, a wireless communication module and a control module, wherein the sensor module, the voice acquisition module, the voice playing module and the wireless communication module are in communication connection with the control module and powered by the control module. The problem that the existing early education robot cannot meet the requirement of biting babies can be solved, and the power consumption of the early education robot can be effectively reduced by transplanting most of calculation work to the server; in addition, the invention can help to reduce the radiation of the early education robot.

Description

Early education robot system and method capable of being gnawed

Technical Field

The invention relates to the technical field of early education robots, in particular to an early education robot system and method capable of biting.

Background

With the development of artificial intelligence, robots have been widely used in the education industry, but cannot be popularized in early education of infants (3-18 months). The reason is as follows:

1. on the part of the manufacturer, the high cost robot manufacturing costs are not compatible with the low cost, low-age toy market.

2. Parents have concerns about the safety of the toy. Children like to bite the toy on the hand because of teething. Most intelligent toys on the market do not meet the biting requirement in quality or design.

3. Parents worry about the radiancy of intelligent equipment.

4. The intelligence development of infants is in a rapid development stage, but the differences among individuals, characters and habits are large, the demands of different ages of months on toys are greatly different, and the requirements of the traditional early education machine and the traditional story machine cannot be met.

Disclosure of Invention

Aiming at the defects of the prior art, the invention aims to provide an early education robot system and method capable of gnawing.

In order to achieve the purpose, the invention adopts the following technical scheme:

a gnawing early education robot system comprises an early education robot, parent-end equipment and a server; the early education robot comprises a robot shell, wherein a plurality of gnawing convex parts made of a gnawing material are arranged on the outer surface of the robot shell; the robot comprises a robot shell, a control device and a control module, wherein the control device is arranged in the robot shell and comprises a sensor module, a voice acquisition module, a voice playing module, a wireless communication module and the control module, and the sensor module, the voice acquisition module, the voice playing module and the wireless communication module are all in communication connection with the control module and are powered by the control module; the sensor module comprises a gyroscope, an acceleration sensor and a pressure sensor, the gyroscope and the acceleration sensor are arranged in the robot shell, and the pressure sensor is arranged in the gnawing convex part; the gyroscope is used for measuring attitude data of the early education robot, the acceleration sensor is used for measuring motion data of the early education robot, and the pressure sensor is used for detecting pressure data received by the gnawing convex part; the voice acquisition module is used for acquiring voice data;

the control module is in communication connection with the parent-end equipment through the wireless communication module, and the parent-end equipment is in wireless communication connection with the server; after the gyroscope, the acceleration sensor, the pressure sensor and the voice acquisition module respectively transmit the attitude data, the motion data, the pressure data and the sound data to the control module, the control module transmits the attitude data, the motion data, the pressure data and the sound data to the parent-end equipment through the wireless communication module, and the parent-end equipment uploads the attitude data, the motion data, the pressure data and the sound data to the server;

the parental terminal equipment is used for uploading the posture data, the motion data, the pressure data and the sound data transmitted by the control module to the server, allowing parents to receive and check the recommended result of the early education material sent by the server through the APP, and allowing the parents to supplement the self information, the characteristic behaviors and the intelligence development condition of the baby through the APP and upload the information, the characteristic behaviors and the intelligence development condition to the server; wherein the self-information of the infant comprises age, sex, weight and height;

the server is used for analyzing and obtaining the motion characteristics, behavior habits, gripping force, biting force and sound behaviors of the baby according to the posture data, the motion data and the pressure data which are collected by the sensor module and the voice collection module and the characteristic behaviors which are supplemented by parents, so that the physical development condition and the character of the baby are obtained;

the server is also used for screening appropriate early education materials and generating recommendation results according to the information of the early education materials by analyzing the obtained body development condition and character of the baby, the intelligence condition supplemented by parents and the information of the baby, and then transmitting the recommendation results to the parent-end equipment, and the parents check the recommendation results through the APP on the parent-end equipment;

the parent-end equipment is also used for enabling parents to select the required early teaching materials according to the recommendation result of the server through the APP and generate a selection result, the selection result is uploaded to the server, the server transmits the corresponding early teaching materials to the parent-end equipment according to the selection result, and the parent-end equipment forwards the early teaching materials to the early teaching robot for the parents to select and play;

and the voice playing module in the early education robot is used for playing the contents selected and played by the parents.

Further, the early teaching material includes audio material of voice conversation, music, story, teaching material.

Further, the wireless communication module comprises a WIFI module and a Bluetooth module.

Further, the gnawing material is edible silica gel.

Further, an early education resource library is stored in the server and is used for storing early education materials in a classified mode, and the early education materials are specifically classified according to one or more of age, gender, physical development conditions, character characteristics and intelligence development conditions; the server screens out corresponding early education materials under each category according to the physical development condition, the character, the intelligence condition and the information of the baby, finally takes the intersection of the screening results of each category as a final screening result, and generates a recommendation result according to the information of the corresponding early education materials and transmits the recommendation result to the parent-end equipment.

Furthermore, the parent-end device is further configured to send a playing parameter or a real-time selection instruction to the early education robot, where the playing parameter includes content to be played and corresponding playing time, and the real-time selection instruction includes content to be played; the control module controls the voice playing module to play corresponding contents according to the playing parameters or the selection instruction.

Furthermore, the bite projecting part comprises a plurality of bite antennae arranged on the outer surface of the robot shell and bite grasping handles arranged on two sides of the robot shell.

Furthermore, a three-gear switch is arranged at the bottom of the robot shell and electrically connected to the control module; in the three-gear switch, a first-level gear is used for triggering shutdown, a second-level gear is used for triggering startup but not starting the wireless communication module, and a third-level gear is used for triggering startup and starting the wireless communication module.

The invention also provides a working method of the early education robot, which comprises the following specific processes:

after the robot is started, the sensor module and the voice acquisition module start to work, the gyroscope measures attitude data of the early education robot, the acceleration sensor measures movement data of the early education robot, the pressure sensor detects pressure data of the gnawing convex part, the voice acquisition module acquires voice data, and the attitude data, the movement data, the pressure data and the voice data are transmitted to the control module; when the wireless communication module is started, the control module transmits the information to the parent-end equipment through the wireless communication module, and the parent-end equipment uploads the information to the server;

parents supplement the self information, characteristic behaviors and intelligence development conditions of the infants through the APP of the parent-end equipment and upload the information, the characteristic behaviors and the intelligence development conditions to a server;

the server analyzes and obtains the motion characteristics, behavior habits, gripping force, biting force and sound behaviors of the baby according to the posture data, the motion data, the pressure data and the sound data acquired by the sensor module and the voice acquisition module and the characteristic behaviors complemented by parents, so that the physical development condition and the character of the baby are obtained; then, through analyzing the obtained body development condition and character of the infant, the intelligence condition supplemented by parents and the information of the infant, screening appropriate early education materials and generating a recommendation result according to the information of the early education materials, and then transmitting the recommendation result to the parent-end equipment, wherein the parents check the recommendation result through the APP on the parent-end equipment;

the parent checks the recommendation result sent by the viewing server through the APP on the parent-end device, selects the required early teaching material according to the recommendation result of the server and generates a selection result, the selection result is uploaded to the server, the server transmits the corresponding early teaching material to the parent-end device according to the selection result, the parent-end device forwards the early teaching material to the early teaching robot for the parent to select and play, and the control module of the early teaching robot controls the voice playing module to play corresponding content according to the selection of the parent.

Further, in the above method, the parent-end device sends a play parameter or a real-time selection instruction to the control module, where the play parameter includes content to be played and corresponding play time, and the real-time selection instruction includes content to be played immediately; the control module receives the playing parameters or the real-time selection instruction through the wireless communication module and controls the voice playing module to play corresponding contents according to the playing parameters or the real-time selection instruction.

The invention has the beneficial effects that:

1. the invention can solve the problem that the prior early education robot can not meet the requirement of biting the baby;

2. according to the invention, most of the calculation work is transplanted to the server, so that the power consumption of the early education robot can be effectively reduced;

3. the invention can help to reduce the radiation of the early education robot.

4. The infant early education system can customize different early education data according to the characteristics of different infants, can be updated at any time according to actual needs, and is high in flexibility.

Drawings

Fig. 1 is a schematic front structural view of an early education robot according to embodiment 1 of the present invention;

fig. 2 is a schematic back structural view of an early education robot in embodiment 1 of the present invention;

fig. 3 is an electrical connection schematic diagram of the early education robot in embodiment 1 of the present invention;

fig. 4 is a bottom schematic view of a robot housing of an early education robot in embodiment 1 of the present invention.

Detailed Description

The present invention will be further described with reference to the accompanying drawings, and it should be noted that the present embodiment is based on the technical solution, and the detailed implementation and the specific operation process are provided, but the protection scope of the present invention is not limited to the present embodiment.

Example 1

The embodiment provides an early education robot system capable of gnawing, as shown in fig. 1 to 4, including an early education robot, parent-end equipment and a server; the early education robot comprises a robot shell 1, wherein a plurality of gnawing convex parts made of gnawing materials are arranged on the outer surface of the robot shell 1; the robot comprises a robot shell 1, a control device and a control module, wherein the control device is arranged in the robot shell and comprises a sensor module, a voice acquisition module, a voice playing module, a wireless communication module and the control module, and the sensor module, the voice acquisition module, the voice playing module and the wireless communication module are all in communication connection with the control module and are powered by the control module; the sensor module comprises a gyroscope, an acceleration sensor and a pressure sensor, the gyroscope and the acceleration sensor are arranged inside the robot shell 1, and the pressure sensor is arranged inside the gnawing convex part; the gyroscope is used for measuring attitude data of the early education robot, the acceleration sensor is used for measuring motion data of the early education robot, and the pressure sensor is used for detecting pressure data received by the gnawing convex part; the voice acquisition module is used for acquiring voice data;

the control module is in communication connection with the home terminal equipment (intelligent equipment such as a mobile phone and a tablet computer) through the wireless communication module, and the home terminal equipment is in wireless communication connection with the server; after the gyroscope, the acceleration sensor, the pressure sensor and the voice acquisition module respectively transmit the attitude data, the motion data, the pressure data and the sound data to the control module, the control module transmits the attitude data, the motion data, the pressure data and the sound data to the parent-end equipment through the wireless communication module, and the parent-end equipment uploads the attitude data, the motion data, the pressure data and the sound data to the server;

the parental terminal equipment is used for uploading the posture data, the motion data, the pressure data and the sound data transmitted by the control module to the server, allowing parents to receive and check the recommended result of the early education material sent by the server through the APP, and allowing the parents to supplement the self information, the characteristic behaviors and the intelligence development condition of the baby through the APP and upload the information, the characteristic behaviors and the intelligence development condition to the server; the infant self-information comprises age, gender, weight and height, and the characteristic behaviors comprise the degree of climbing and sitting, the imitative behavior, the pronunciation (language) expression ability, the emotional expressions such as crying and laughing, the character belonging to inward or outward, what games can be played, whether exploration, storage and finding of things can be performed, and the like.

The server is used for analyzing and obtaining the motion characteristics, behavior habits, gripping force, biting force and sound behaviors of the baby according to the posture data, the motion data and the pressure data which are collected by the sensor module and the voice collection module and the characteristic behaviors which are supplemented by parents, so that the physical development condition and the character of the baby are obtained;

the server is also used for screening appropriate early education materials and generating recommendation results according to the information of the early education materials by analyzing the obtained body development condition and character of the baby, the intelligence condition supplemented by parents and the information of the baby, and then transmitting the recommendation results to the parent-end equipment, and the parents check the recommendation results through the APP on the parent-end equipment; the early teaching material comprises voice conversation, music, stories and teaching material;

the parent-end equipment is also used for enabling parents to select the required early teaching materials according to the recommendation result of the server through the APP and generate a selection result, the selection result is uploaded to the server, the server transmits the corresponding early teaching materials to the parent-end equipment according to the selection result, and the parent-end equipment forwards the early teaching materials to the early teaching robot for the parents to select and play;

and the voice playing module in the early education robot is used for playing the contents selected and played by the parents.

It should be noted that the motion characteristics and behavior habits of the baby are mainly analyzed according to the posture data and motion data of the early education robot and the characteristic behavior supplemented by parents, the gripping force and biting force of the baby are mainly analyzed according to the pressure data measured at the bite convex part, and the acoustic behavior is mainly analyzed according to the acoustic data, such as whether the baby is laughing, crying, shouting, humming purplishment, yawaying, and clearly expresses words, words and sentences.

It should be noted that if the posture of the early education robot is changed frequently or acceleration is generated frequently, it can be indicated that the infant often fiddles the early education robot and moves frequently, and the infant mostly has good physical development condition and outward character; if the gripping force and the biting force of the baby are larger, the body development condition of the baby is good; if the baby laughs often and does not cry and shout often, the character of the baby is mostly outward to turn a long, if the baby cry and shout often, the character of the baby is mostly outward to be anxious, if the baby is quieter and does not sound often, the character of the baby is mostly inward to be calm. Similar analysis can be used to derive the physical development and character of the infant.

It should be noted that, for the acquired sound data, the server first identifies the sound data of the baby from the sound data according to the pre-stored sound feature data of the baby, and then analyzes the sound data.

In this embodiment, the wireless communication module includes a WIFI module and a bluetooth module. When WIFI equipment exists, the control module of the early education robot preferentially selects the WIFI module to be in communication connection with the parent-end equipment, and if no WIFI equipment exists, the control module of the early education robot is in communication connection with the parent-end equipment through the Bluetooth module. Through the connection mode that sets up the bluetooth, can be so that under the condition that does not have WIFI equipment, the early education robot still keeps the effective connection with head of a family end equipment to rely on the mobile network of head of a family end equipment to keep the effective connection with the service end.

It should be noted that the gnawing material is edible silica gel.

It should be noted that, the bite-able part is set to be a convex structure, which can play a role of inducing the baby to bite, not only can satisfy the requirement of the baby to bite, but also can effectively prevent the baby from biting other parts made of non-bite materials.

The server stores an early education resource library, wherein the early education resource library is used for storing early education materials in a classified manner, and can be specifically classified according to one or more of age, sex, physical development condition, character characteristic and intelligence development condition; the server screens out corresponding early education materials under each category according to the physical development condition, the character, the intelligence condition and the information of the baby, finally takes the intersection of the screening results of each category as a final screening result, and generates a recommendation result according to the information of the corresponding early education materials and transmits the recommendation result to the parent-end equipment.

The server generates the recommendation result and also generates an analysis report, a recommendation reason and a constructive opinion, and the analysis report, the recommendation reason and the constructive opinion are transmitted to the home terminal device together with the recommendation result.

In this embodiment, the parent-end device is further configured to send a playing parameter or a real-time selection instruction to the early education robot, where the playing parameter includes content to be played and corresponding playing time, and the real-time selection instruction includes content to be played; the control module controls the voice playing module to play corresponding contents according to the playing parameters or the selection instruction.

In this embodiment, the protrusion portion includes a plurality of biting tentacles 2 disposed on an outer surface of the robot housing 1, and biting grip handles 3 disposed on two sides of the robot housing 1. Furthermore, the gnawing convex part can be provided with teeth grinding particles 4 to help children to go out of teeth.

In this embodiment, the bottom of the robot housing 1 is provided with a three-position switch 5, and the three-position switch 5 is electrically connected to the control module; in the three-gear switch 5, a first-level gear is used for triggering shutdown, a second-level gear is used for triggering startup but not starting the wireless communication module, and a third-level gear is used for triggering startup and starting the wireless communication module. Through setting up three-gear switch to make and select to open or not open wireless communication module through three-gear switch, can close wireless communication module when need not carry out data transmission, help reducing the radiation.

In this embodiment, the back of the robot housing 1 is further provided with a sound playing hole 6.

In this embodiment, a charging port 7 is disposed at the bottom of the robot housing 1, and the charging port 7 is electrically connected to the control module. Further, in the present embodiment, the charging port 7 is provided with a matching dust cover 8.

In this embodiment, the bottom of the robot housing 1 is provided with an adsorption base 9.

Example 2

The embodiment provides a working method of the early education robot described in embodiment 1, which specifically includes the following steps:

after the robot is started, the sensor module and the voice acquisition module start to work, the gyroscope measures attitude data of the early education robot, the acceleration sensor measures movement data of the early education robot, the pressure sensor detects pressure data of the gnawing convex part, the voice acquisition module acquires voice data, and the attitude data, the movement data, the pressure data and the voice data are transmitted to the control module; when the wireless communication module is started, the control module transmits the information to the parent-end equipment through the wireless communication module, and the parent-end equipment uploads the information to the server;

parents supplement the self information, characteristic behaviors and intelligence development conditions of the infants through the APP of the parent-end equipment and upload the information, the characteristic behaviors and the intelligence development conditions to a server;

the server analyzes and obtains the motion characteristics, behavior habits, gripping force, biting force and sound behaviors of the baby according to the posture data, the motion data, the pressure data and the sound data acquired by the sensor module and the voice acquisition module and the characteristic behaviors complemented by parents, so that the physical development condition and the character of the baby are obtained; then, through analyzing the obtained body development condition and character of the infant, the intelligence condition supplemented by parents and the information of the infant, screening appropriate early education materials and generating a recommendation result according to the information of the early education materials, and then transmitting the recommendation result to the parent-end equipment, wherein the parents check the recommendation result through the APP on the parent-end equipment;

the parent checks the recommendation result sent by the viewing server through the APP on the parent-end device, selects the required early teaching material according to the recommendation result of the server and generates a selection result, the selection result is uploaded to the server, the server transmits the corresponding early teaching material to the parent-end device according to the selection result, the parent-end device forwards the early teaching material to the early teaching robot for the parent to select and play, and the control module of the early teaching robot controls the voice playing module to play corresponding content according to the selection of the parent.

In this embodiment, the parent-end device sends a playing parameter or a real-time selection instruction to the control module, where the playing parameter includes content to be played and corresponding playing time, and the real-time selection instruction includes content to be played immediately; the control module receives the playing parameters or the real-time selection instruction through the wireless communication module and controls the voice playing module to play corresponding contents according to the playing parameters or the real-time selection instruction.

In this embodiment, the server screens out the early education materials corresponding to each category in the early education resource library according to the physical development condition, the personality, the intelligence condition of the infant and the information of the infant, finally takes the intersection of the screening results of each category as a final screening result, and generates a recommendation result according to the information of the corresponding early education materials and transmits the recommendation result to the parent-end device.

Various corresponding changes and modifications can be made by those skilled in the art based on the above technical solutions and concepts, and all such changes and modifications should be included in the protection scope of the present invention.

Claims (10)

1. A gnawing early education robot system is characterized by comprising an early education robot, parent-end equipment and a server; the early education robot comprises a robot shell, wherein a plurality of gnawing convex parts made of a gnawing material are arranged on the outer surface of the robot shell; the robot comprises a robot shell, a control device and a control module, wherein the control device is arranged in the robot shell and comprises a sensor module, a voice acquisition module, a voice playing module, a wireless communication module and the control module, and the sensor module, the voice acquisition module, the voice playing module and the wireless communication module are all in communication connection with the control module and are powered by the control module; the sensor module comprises a gyroscope, an acceleration sensor and a pressure sensor, the gyroscope and the acceleration sensor are arranged in the robot shell, and the pressure sensor is arranged in the gnawing convex part; the gyroscope is used for measuring attitude data of the early education robot, the acceleration sensor is used for measuring motion data of the early education robot, and the pressure sensor is used for detecting pressure data received by the gnawing convex part; the voice acquisition module is used for acquiring voice data;

the control module is in communication connection with the parent-end equipment through the wireless communication module, and the parent-end equipment is in wireless communication connection with the server; after the gyroscope, the acceleration sensor, the pressure sensor and the voice acquisition module respectively transmit the attitude data, the motion data, the pressure data and the sound data to the control module, the control module transmits the attitude data, the motion data, the pressure data and the sound data to the parent-end equipment through the wireless communication module, and the parent-end equipment uploads the attitude data, the motion data, the pressure data and the sound data to the server;

the parental terminal equipment is used for uploading the posture data, the motion data, the pressure data and the sound data transmitted by the control module to the server, allowing parents to receive and check the recommended result of the early education material sent by the server through the APP, and allowing the parents to supplement the self information, the characteristic behaviors and the intelligence development condition of the baby through the APP and upload the information, the characteristic behaviors and the intelligence development condition to the server; wherein the self-information of the infant comprises age, sex, weight and height;

the server is used for analyzing and obtaining the motion characteristics, behavior habits, gripping force, biting force and sound behaviors of the baby according to the posture data, the motion data and the pressure data which are collected by the sensor module and the voice collection module and the characteristic behaviors which are supplemented by parents, so that the physical development condition and the character of the baby are obtained;

the server is also used for screening appropriate early education materials and generating recommendation results according to the information of the early education materials by analyzing the obtained body development condition and character of the baby, the intelligence condition supplemented by parents and the information of the baby, and then transmitting the recommendation results to the parent-end equipment, and the parents check the recommendation results through the APP on the parent-end equipment;

the parent-end equipment is also used for enabling parents to select the required early teaching materials according to the recommendation result of the server through the APP and generate a selection result, the selection result is uploaded to the server, the server transmits the corresponding early teaching materials to the parent-end equipment according to the selection result, and the parent-end equipment forwards the early teaching materials to the early teaching robot for the parents to select and play;

and the voice playing module in the early education robot is used for playing the contents selected and played by the parents.

2. The early teaching robotic system of claim 1 wherein the early teaching material comprises audio material of voice conversation, music, story, teaching material.

3. The early education robot system of claim 1 wherein the wireless communication module includes a WIFI module and a bluetooth module.

4. The early education robot system of claim 1 wherein the gnawing material is edible silicone.

5. The early education robot system of claim 1 wherein the server has stored therein an early education repository for categorizing and storing early education material, particularly by one or more of age, gender, physical development, character and intellectual development; the server screens out corresponding early education materials under each category according to the physical development condition, the character, the intelligence condition and the information of the baby, finally takes the intersection of the screening results of each category as a final screening result, and generates a recommendation result according to the information of the corresponding early education materials and transmits the recommendation result to the parent-end equipment.

6. The early education robot system of claim 1, wherein the parent-end device is further configured to send a play parameter or a real-time selection instruction to the early education robot, the play parameter includes content to be played and corresponding play time, and the real-time selection instruction includes content to be played; the control module controls the voice playing module to play corresponding contents according to the playing parameters or the selection instruction.

7. The early education robot system as claimed in claim 1, wherein the gnawing protrusion part includes a plurality of gnawing tentacles provided on the outer surface of the robot housing, and gnawing grip handles provided on both sides of the robot housing.

8. The early education robot system according to claim 1, wherein the bottom of the robot housing is provided with a three-position switch electrically connected to the control module; in the three-gear switch, a first-level gear is used for triggering shutdown, a second-level gear is used for triggering startup but not starting the wireless communication module, and a third-level gear is used for triggering startup and starting the wireless communication module.

9. The working method of the early education robot as claimed in any one of claims 1 to 8, characterized in that the concrete process is as follows:

after the robot is started, the sensor module and the voice acquisition module start to work, the gyroscope measures attitude data of the early education robot, the acceleration sensor measures movement data of the early education robot, the pressure sensor detects pressure data of the gnawing convex part, the voice acquisition module acquires voice data, and the attitude data, the movement data, the pressure data and the voice data are transmitted to the control module; when the wireless communication module is started, the control module transmits the information to the parent-end equipment through the wireless communication module, and the parent-end equipment uploads the information to the server;

parents supplement the self information, characteristic behaviors and intelligence development conditions of the infants through the APP of the parent-end equipment and upload the information, the characteristic behaviors and the intelligence development conditions to a server;

the server analyzes and obtains the motion characteristics, behavior habits, gripping force, biting force and sound behaviors of the baby according to the posture data, the motion data, the pressure data and the sound data acquired by the sensor module and the voice acquisition module and the characteristic behaviors complemented by parents, so that the physical development condition and the character of the baby are obtained; then, through analyzing the obtained body development condition and character of the infant, the intelligence condition supplemented by parents and the information of the infant, screening appropriate early education materials and generating a recommendation result according to the information of the early education materials, and then transmitting the recommendation result to the parent-end equipment, wherein the parents check the recommendation result through the APP on the parent-end equipment;

the parent checks the recommendation result sent by the viewing server through the APP on the parent-end device, selects the required early teaching material according to the recommendation result of the server and generates a selection result, the selection result is uploaded to the server, the server transmits the corresponding early teaching material to the parent-end device according to the selection result, the parent-end device forwards the early teaching material to the early teaching robot for the parent to select and play, and the control module of the early teaching robot controls the voice playing module to play corresponding content according to the selection of the parent.

10. The method according to claim 9, wherein the parent-end device sends a playing parameter or a real-time selection instruction to the control module, the playing parameter includes content to be played and corresponding playing time, and the real-time selection instruction includes content to be played immediately; the control module receives the playing parameters or the real-time selection instruction through the wireless communication module and controls the voice playing module to play corresponding contents according to the playing parameters or the real-time selection instruction.

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