CN216418304U - Intelligent toy - Google Patents

Abstract

The embodiment of the utility model discloses intelligent toy, include: a toy body having a plurality of differently positioned surfaces; a plurality of display assemblies, the number of said display assemblies corresponding to the number of said surfaces, one said display assembly disposed on one said surface, each said display assembly comprising a plurality of display elements; the induction circuit is arranged on the toy body and used for generating induction signals; the control circuit is arranged on the toy body, is respectively electrically connected with the display components and the induction circuit, and is used for receiving the induction signals and controlling the brightness and the color of the display elements. When the surface of toy body was acted on by the exogenic action, this application passes through sensing circuit output induction signal and gives control circuit, and control circuit output makes every display element luminance and luminous colour's signal has realized the effective interdynamic between man-machine, has improved entertainment education's interest.

Description

Intelligent toy

Technical Field

The utility model relates to a toy technical field especially relates to an intelligent toy.

Background

The entertainment teaching aid is a real object for educating children or students to learn new things in an entertainment interaction mode and aims at propagating science and technology and educating people; with the improvement of income and quality of life of people, a new generation of parents pay more attention to the cultivation of learning interest and manual operation ability of children, and the concept of teaching through entertainment in toys is already popularized among the parents; the entertainment teaching aid in the prior art cannot realize diversified display and cannot improve the interestingness of the entertainment teaching aid.

SUMMERY OF THE UTILITY MODEL

In view of the above, it is necessary to provide an intelligent toy.

A smart toy, comprising:

a toy body having a plurality of differently positioned surfaces;

a plurality of display assemblies, the number of said display assemblies corresponding to the number of said surfaces, one said display assembly disposed on one said surface, each said display assembly comprising a plurality of display elements;

the sensing circuit is arranged on the toy body and used for generating a sensing signal;

the control circuit is arranged on the toy body, is respectively electrically connected with the display components and the induction circuit, and is used for receiving the induction signals and controlling the brightness and the color of the display elements.

In one embodiment, the sensing circuit includes an acceleration sensor, an angular velocity sensor, and a geomagnetic sensor.

In one embodiment, the intelligent toy further comprises a voice player, the voice player is disposed on the toy body and electrically connected to the control circuit, and the voice player is used for playing a first voice.

In one embodiment, the intelligent toy further comprises a distance sensor, the distance sensor is arranged on the toy body and electrically connected with the control circuit, and the distance sensor is used for detecting the relative position information of the toy body and transmitting the relative position information to the control circuit.

In one embodiment, the intelligent toy further comprises a voice collector, the voice collector is arranged on the toy body and electrically connected with the control circuit, and the voice collector is used for collecting the second voice.

In one embodiment, the intelligent toy further comprises a trigger circuit, the trigger circuit is disposed on the toy body and electrically connected to the control circuit, and the trigger circuit is configured to generate a trigger signal and transmit the trigger signal to the control circuit.

In one embodiment, the trigger circuit includes a key.

In one embodiment, the intelligent toy further comprises a communication circuit, the communication circuit is arranged on the toy body and electrically connected with the control circuit, and the communication circuit is used for sending out a wireless communication signal and transmitting the strength of the wireless communication signal to the control circuit.

In one embodiment, the intelligent toy further comprises a power supply and a power management circuit, wherein the power supply and the power management circuit are both arranged on the toy body, the power supply is electrically connected with the power management circuit, the power management circuit is electrically connected with the display components, the sensing circuit and the control circuit respectively, the power management circuit is used for managing charging and discharging of the power supply, and the power supply is used for supplying power to the display components, the sensing circuit and the control circuit through the power management circuit.

In one embodiment, the intelligent toy further comprises an electric quantity detection circuit, the electric quantity detection circuit is disposed on the toy body and electrically connected to the control circuit and the power supply, respectively, and the electric quantity detection circuit is used for detecting the electric quantity of the power supply and transmitting the electric quantity to the control circuit.

Implement the embodiment of the utility model provides a, will have following beneficial effect:

the induction circuit can produce induction signal under user's touching, and control circuit generates drive signal according to induction signal, through drive signal control every display element's luminous luminance and luminous colour, the luminous luminance of each RGB LED and the combination of luminous colour can form various different patterns to make intelligent toy can show different patterns, realize intelligent toy's diversified pattern display, realized the intelligent interaction between user and the toy.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Wherein:

FIG. 1 is a schematic diagram of a configuration of a smart toy according to one embodiment;

fig. 2 is a schematic structural diagram of an intelligent toy in another embodiment.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

FIG. 1 is a schematic view of a smart toy according to one embodiment. Referring to fig. 1, the present application provides an intelligent toy including a toy body 10, a plurality of display elements 100, a sensing circuit 200, and a control circuit 300.

Toy body 10 has a plurality of differently positioned surfaces. The number of display elements 100 corresponds to the number of surfaces on which one display element 100 is disposed, and each display element 100 includes a plurality of display elements 101. The sensing circuit 200 is disposed on the toy body 10 for generating a sensing signal. The control circuit 300 is disposed on the toy body 10, the control circuit 300 is electrically connected to the plurality of display elements 100 and the sensing circuit 200, respectively, and the control circuit 300 is configured to receive the sensing signal and control the brightness and color of each of the display elements 101.

Specifically, the toy body 10 may have a plurality of faces, and may be any polyhedron, for example, three faces, four faces, five faces, six faces, etc. In one embodiment, toy body 10 may be a cube or a cuboid.

The plurality of display elements 101 on each surface of the toy body 10 are arranged in a matrix, and the display elements 101 may be RGB LEDs, which can emit mixed color light with red, green, and blue as three primary colors, that is, the light emitting color of the RGB LEDs is adjustable.

The sensing circuit 200 can sense position information and touch information of each surface of the toy body 10, and generate a sensing signal according to the position information and the touch information, the control circuit 300 can process the sensing signal, so as to obtain azimuth information of each surface of the toy body 10 and whether the surface is touched, the control circuit 300 can generate a driving signal according to the azimuth information of each surface of the toy body 10, and control the luminance and the color of light emission of each display element 101 according to the driving signal. The control circuit 300 may further generate a corresponding driving signal when the corresponding surface of the toy body 10 is touched, so as to control the light emitting brightness and the light emitting color of each display element 101 according to the driving signal.

The position information and the orientation information can be coordinates and orientation, and the orientation can be southeast, northwest, up, down, left, right, front and back. The sensing signal may include acceleration, angular velocity, and pointing. The touch may be a tap or a throw. The driving signal may be a PWM (Pulse width modulation) signal, and the control circuit 300 may adjust the driving current of the RGB LED through the PWM signal, and further adjust the power of the display element 101, so as to adjust the light emitting brightness and the light emitting color of the RGB LED. The control circuit 300 controls the light emitting brightness and the light emitting color of each RGB LED, so that the patterns displayed by the display elements 100 on each surface of the toy body 10 can be controlled. The patterns may be, for example, numbers, shapes, letters, Chinese characters, pinyin, and expressions. It is understood that the combination of the light emission brightness and the light emission color of the respective RGB LEDs may form various patterns.

Further, the intelligent toy includes a driving circuit, the driving circuit is electrically connected to the control circuit 300 and the plurality of display elements 100, and the control circuit 300 can transmit a driving signal to control the brightness and color of the display element 101.

In one embodiment, the sensing circuit 200 includes an acceleration sensor, an angular velocity sensor, and a geomagnetic sensor.

Specifically, the acceleration sensor in this embodiment may collect the acceleration of the toy body 10 during movement, the angular velocity sensor may collect the angular velocity of the toy body 10 during movement, the geomagnetic sensor may collect the directions of the surfaces of the toy body 10, such as south, west, and north, the control circuit 300 may receive the acceleration, the angular velocity, and the directions, and the control circuit 300 calculates the acceleration and the angular velocity by using the existing calculation method, so as to obtain the displacement of each surface of the toy body 10.

The control circuit 300 controls each surface of the toy body 10 to display a corresponding pattern by the orientation of each surface. The control circuit 300 can judge whether each surface is touched through the displacement of the surface, so as to further control the pattern displayed by each surface.

In one embodiment, the control circuit 300 may be an MCU (micro controller Unit).

In other embodiments, the sensing circuit 200 may be a nine-axis sensor integrating an acceleration sensor, an angular velocity sensor, and a geomagnetic sensor.

As shown in fig. 2, which is a schematic view of another embodiment of the intelligent toy, in one embodiment, the intelligent toy further includes a distance sensor 500, the distance sensor 500 is disposed on the toy body 10 and electrically connected to the control circuit 300, and the distance sensor 500 is configured to detect relative position information of the toy body 10 and transmit the relative position information to the control circuit 300.

Specifically, the distance sensor 500 may detect relative position information between the toy body 10 where the distance sensor 500 is located and other intelligent toys, and the control circuit 300 may obtain the relative position between the toy body 10 where the distance sensor 500 is located and other intelligent toys through processing the relative position information, so that the control circuit 300 controls the display assembly 100 of the intelligent toy where the control circuit 300 is located to display a first pattern, and the control circuit 300 of other intelligent toys may control the display assembly 100 of the intelligent toy where the control circuit 300 is located to display a second pattern matched with the first pattern. For example, when the number "1" displayed by the display component 100 of one intelligent toy and the number "2" displayed by the display component 100 of the other intelligent toy are "number added" in the game mode, the control circuits 300 of the two intelligent toys respectively control the respective display components 100 to display the number "3" for the user to practice the counting, and the goal of learning is achieved while the user is entertaining. The distance sensor 500 may be a hall sensor. The Hall sensor can realize short-distance detection, so that the relative position information obtained by detection is more accurate.

In one embodiment, the intelligent toy further comprises a communication circuit 800, the communication circuit 800 is disposed on the toy body 10 and electrically connected to the control circuit 300, and the communication circuit 800 is configured to send out a wireless communication signal and further configured to transmit the strength of the wireless communication signal to the control circuit 300. The control circuit 300 can obtain the relative distance between the intelligent toy where the communication circuit 800 is located and other intelligent toys according to the strength of the wireless communication signal, so that the game function that the user holds the intelligent toy to find other intelligent toys can be realized. The communication circuit 800 can be used to realize remote detection between intelligent toys, so that a user can use the intelligent toys in a larger environment.

The communication circuit 800 may also be configured to send information transmitted from the control circuit 300 to the communication circuit 800 to other devices, or upload the information to the cloud, where the other devices may be other intelligent toys, mobile terminals, servers, and the like.

The communication circuit 800 may be a WIFI communication module, a bluetooth communication module, a 3G communication module and/or a 4G communication module and/or a 5G communication module, etc.

In one embodiment, the intelligent toy further includes a voice player 400, the voice player 400 is disposed on the toy body 10 and electrically connected to the control circuit 300, and the voice player 400 is used for playing a first voice. Specifically, the control circuit 300 can transmit the voice control signal to the voice player 400, and the voice player 400 plays the first voice according to the voice control signal. By setting the voice player 400, the user can obtain the game feedback result through the first voice played by the voice player 400. The voice player 400 may be a speaker or loudspeaker or other device capable of playing sound,

in one embodiment, the intelligent toy further comprises a voice collector 600, the voice collector 600 is disposed on the toy body 10 and electrically connected to the control circuit 300, and the voice collector 600 is used for collecting the second voice. The voice collector 600 is further configured to transmit the second voice to the control circuit 300, the control circuit 300 performs recognition processing on the second voice by using the existing voice recognition method, and the control circuit 300 may generate a voice control signal according to the recognition result, so as to control the player 400 to play the first voice. Through setting up voice collector 600, the user can realize the voice interaction with intelligent toy. The control circuit 300 may also generate a driving signal according to the recognition result so that the control circuit 300 may control the display pattern of the display assembly 100 according to the user's voice. The speech collector 600 may be a microphone.

In one embodiment, the intelligent toy further comprises a trigger circuit 700, the trigger circuit 700 is disposed on the toy body 10 and electrically connected to the control circuit 300, and the trigger circuit 700 is configured to generate a trigger signal and transmit the trigger signal to the control circuit 300. The trigger circuit 700 may generate a trigger signal under the operation of a user, and the control circuit 300 may control the display pattern of the display assembly 100 or control the voice player 400 to play the first voice according to the trigger signal.

The trigger circuit 700 may include a plurality of keys. The user can cause the keys to generate certain trigger signals by pressing the keys. The trigger signal may be an on signal, an off signal, or a switching signal. The control circuit 300 may turn on the power supply of the intelligent toy according to the on signal, turn off the power supply of the intelligent toy according to the off signal, and switch the game mode of the intelligent toy according to the switching signal. In different game modes of the intelligent toy, the display assembly 100 can display different patterns, and the voice player 400 can play different voices.

By setting the trigger circuit 700, the user can realize convenient control of the intelligent toy.

In one embodiment, the intelligent toy further comprises a power source 900 and a power management circuit 1000, the power source 900 and the power management circuit 1000 are both disposed on the toy body 10, and the power source 900 is electrically connected to the power management circuit 1000; the power management circuit 1000 is electrically connected to the plurality of display modules 100, the sensing circuit 200, and the control circuit 300, respectively, and the power management circuit 1000 is configured to manage charging and discharging of the power supply 900; the power supply 900 is used for supplying power to the plurality of display components 100, the sensing circuit 200 and the control circuit 300 through the power management circuit 1000.

The power management circuit 1000 is further electrically connected to the distance sensor 500, the communication circuit 800, the voice player 400, the voice collector 600 and the trigger circuit 700, respectively, and the power supply 900 is further used for supplying power to the distance sensor 500, the communication circuit 800, the voice player 400, the voice collector 600 and the trigger circuit 700 through the power management circuit 1000. Power management circuit 1000 may regulate the supply current and supply voltage of power supply 900.

Further, the intelligent toy further comprises a charging interface circuit, and the charging interface circuit is electrically connected with the power management circuit 1000. The charging interface circuit is used for being connected with an external power supply, so that the external power supply charges the power supply 900 through the charging interface circuit and the power supply management circuit 1000, and the power supply management circuit 1000 can also adjust the charging current and the charging voltage of the power supply 900. The power management circuit 1000 may also protect charging and discharging of the power supply 900 to prevent overcharge or overdischarge of the power supply 900. Power source 900 may be a lithium battery.

In one embodiment, the intelligent toy further includes an electric quantity detection circuit 1100, the electric quantity detection circuit 1100 is disposed on the toy body 10 and electrically connected to the control circuit 300 and the power source 900, respectively, and the electric quantity detection circuit 1100 is configured to detect the electric quantity of the power source 900 and transmit the electric quantity to the control circuit 300. The control circuit 300 may compare the electric quantity with a preset electric quantity, if the electric quantity is smaller than the preset electric quantity, the control circuit 300 may play a charging prompt voice by controlling the voice player 400, or the control circuit 300 may display the charging prompt information by controlling the display assembly 100, so as to prompt the user to charge the smart toy.

In one application scenario, a user operates the trigger circuit 700 to enable the trigger circuit 700 to generate a start signal, the control circuit 300 transmits a start control signal to the power management circuit 1000 according to the start signal, the power management circuit 1000 starts the power supply 900 to supply power to each part of the intelligent toy according to the start control signal, and the control circuit 300 controls the part or the display element in the display module 100 to flash and controls the voice player 400 to play countdown voice to prompt the user to prepare for a game. At a first preset time after the intelligent toy is powered on, the control circuit 300 controls the voice player 400 to play a game title, and at a second preset time after the voice player 400 plays the game title, controls the voice player 400 to play a game question, and controls the toy body 10 to control each display component 100 to respectively display a correct answer and a wrong answer of the game question according to the orientation of each surface of the toy body 10 provided by the geomagnetic sensor, for example, the game question may be "which of the colors is red? ", the display component 100 on one surface of the toy body 10 displays red color, the other surfaces display other colors (non-red color), the user selects an answer by beating one surface of the toy body 10, the control circuit 300 determines the surface that the user beats by calculating the acceleration provided by the acceleration sensor and the angular velocity provided by the angular velocity sensor, so as to determine whether the answer selected by the user is correct, when the answer is correct, the control circuit 300 controls the voice player 400 to play a prompt voice with correct answer, and simultaneously the control circuit 300 controls the surface that the user beats to display prompt information with correct answer. When the answer is wrong, the control circuit 300 controls the voice player 400 to play the voice prompt with the wrong answer and the voice prompt with the wrong reselected answer, and when the user does not select the answer or the selected answer is wrong within the third preset time, the control circuit 300 controls the voice player 400 to play the voice prompt with the failed breakthrough, and controls all surfaces of the toy body 10 to display the correct answer, for example, all surfaces of the toy body 10 to display red, and simultaneously controls the voice player 400 to play the information that the displayed answer is the correct answer.

The application discloses intelligent toy, induction circuit 200 can produce induction signal under user's touching, and control circuit 300 can adopt current algorithm to handle induction signal, generates drive signal, and is every through drive signal control display element 101's luminance and luminous colour, the luminance of each RGB LED and the combination of luminous colour can form various different patterns to make intelligent toy can show different patterns, realize intelligent toy's diversified pattern display, realized the intelligent interaction between user and the toy.

The above disclosure is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the scope of the invention, which is defined by the appended claims.

Claims (10)

1. An intelligent toy, comprising:

a toy body having a plurality of differently positioned surfaces;

a plurality of display assemblies, the number of said display assemblies corresponding to the number of said surfaces, one said display assembly disposed on one said surface, each said display assembly comprising a plurality of display elements;

the induction circuit is arranged on the toy body and used for generating induction signals;

the control circuit is arranged on the toy body, is respectively electrically connected with the display components and the induction circuit, and is used for receiving the induction signals and controlling the brightness and the color of the display elements.

2. The intelligent toy of claim 1, wherein the sensing circuit comprises an acceleration sensor, an angular velocity sensor, and a geomagnetic sensor.

3. The intelligent toy of claim 1, further comprising a voice player disposed on the toy body and electrically connected to the control circuit, the voice player being configured to play a first voice.

4. The intelligent toy of claim 1, further comprising a distance sensor disposed on the toy body and electrically connected to the control circuit, the distance sensor being configured to detect relative position information of the toy body and transmit the relative position information to the control circuit.

5. The intelligent toy of claim 1, further comprising a voice collector disposed on the toy body and electrically connected to the control circuit, wherein the voice collector is configured to collect a second voice.

6. The intelligent toy of claim 1, further comprising a trigger circuit disposed on the toy body and electrically connected to the control circuit, the trigger circuit configured to generate a trigger signal and transmit the trigger signal to the control circuit.

7. The intelligent toy of claim 6, wherein the trigger circuit comprises a key.

8. The intelligent toy of claim 1, further comprising a communication circuit disposed on the toy body and electrically connected to the control circuit, the communication circuit configured to send a wireless communication signal and further configured to transmit the strength of the wireless communication signal to the control circuit.

9. The intelligent toy of claim 1, further comprising a power source and a power management circuit, wherein the power source and the power management circuit are both disposed on the toy body, the power source is electrically connected to the power management circuit, the power management circuit is electrically connected to the plurality of display elements, the sensing circuit and the control circuit, the power management circuit is configured to manage charging and discharging of the power source, and the power source is configured to supply power to the plurality of display elements, the sensing circuit and the control circuit through the power management circuit.

10. The intelligent toy of claim 9, further comprising an electric quantity detection circuit disposed on the toy body and electrically connected to the control circuit and the power supply, respectively, the electric quantity detection circuit being configured to detect an electric quantity of the power supply and transmit the electric quantity to the control circuit.

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