CN209967637U - Domino programming toy - Google Patents

Abstract

The utility model provides a domino programming toy to teach in the mode of happy through the lively, train cognitive abilities such as children's programming ability and music, chinese character. The utility model discloses a domino is equipped with in the domino: the central control module is used for setting the sound emitted by the domino and controlling the work of the sound production module and the display module; the sounding module is connected with the central control module and used for sounding the central control module when the domino is toppled over; the dumping detection module is connected with the central control module and used for detecting the state of the domino and sending a triggering signal to the central control module when the domino is dumped; the display module is connected with the central control module and is used for displaying the marks of the sound set by the central control module; and the power supply module supplies power to the modules. The utility model discloses combine domino and programming, give the domino with information such as musical note, characters, fall down through domino in proper order, reach the amusement effect of playing music or reading characters aloud, and then realize training children's purpose of programming in the amusement.

Description

Domino programming toy

Technical Field

The utility model belongs to the technical field of recreation and education, concretely relates to programming toy who has combined domino recreation mode.

Background

The children music toys usually play music in the forms of beating notes to produce sound, feeding back keys to produce sound and the like, so as to enlighten music cells of children. However, these toys are generally simple to control and rapid in sound feedback, mainly exercise the coordination ability of fingers and brains of children, have no educational significance for editing musical notes, are more suitable for young children, and are not very attractive to school children. Similarly, current literacy toys (e.g., literacy cards) simply associate individual chinese characters with corresponding pinyin, and do not involve editing of long sentences.

Dominoes are cuboid dominoes made of wood, bone or plastic, are arranged at certain intervals during playing, and fall down in sequence by using a chain reaction to achieve an entertainment effect.

With the development of science and technology, some programming toys have appeared, but the common programming toys control the displacement of the electric toy so as to complete set tasks to play games, and few programming toys relate to education aspects such as music and literacy.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a domino programming toy to through the mode of teaching in joy, training children programming ability and cognitive ability such as music, chinese character.

The utility model discloses a domino programming toy includes the domino, and the key lies in be equipped with in the domino:

the central control module is used for setting the sound emitted by the domino and controlling the work of the sound production module and the display module;

the sounding module is connected with the central control module and used for sounding the central control module when the domino is toppled over;

the dumping detection module is connected with the central control module and used for detecting the state of the domino and sending a triggering signal to the central control module when the domino is dumped;

the display module is connected with the central control module and is used for displaying the marks of the sound set by the central control module;

and the power supply module supplies power to the modules.

In the domino, after the central control module is used for setting the sound emitted by the domino, the central control module displays symbols (such as musical notes or Chinese characters) representing the sound on the display module, a user arranges a plurality of dominos in a domino row according to a preset sequence and intervals, when the falling detection module in the dominos detects that the dominos fall down, a trigger signal is emitted to the central control module, and the central control module controls the sound emitting module to emit the set sound. The domino falls down in sequence, so that the sound emitted by the single domino can be connected into preset music or sentences, and the like, thereby realizing the editing of notes or Chinese characters, enabling children to obtain certain achievement feeling and improving the learning fun of the children. The domino can also be applied to toys for training the musical programming ability of all types of vocals such as drum sets, pianos, guitars and the like.

In order to avoid the noise influence generated when the domino is toppled and collided, the surface of the domino is provided with a mute strip or a mute layer made of soft materials, so that the domino can only make a preset sound when toppled.

The domino programming toy has the following three specific forms:

1. the central control module is composed of a plurality of buttons arranged on the surface of the domino and a single chip microcomputer arranged inside the domino, and the single chip microcomputer is connected with the buttons, the sound production module, the dumping detection module, the display module and the power supply module respectively. The buttons can be multiple, if corresponding to note editing, a note adjusting button, a duration adjusting button and a high-low tone adjusting button can be arranged, wherein each time the note adjusting button is pressed, the single chip microcomputer changes one note according to a preset sequence until a proper note is found; each time the duration adjusting button is pressed, the single chip microcomputer changes one duration according to a preset sequence until a proper duration is found; when the high and low tone adjusting button is pressed once, the single chip microcomputer changes a tone pitch according to a preset sequence until a proper tone pitch is found; through the cooperation of three buttons and singlechip, can set up suitable sound, and for the chinese character, can set up the pinyin that the chinese character corresponds through a plurality of buttons, the principle is the same with the note editing, and it is no longer repeated here.

Furthermore, the power module is composed of an openable battery compartment and a battery arranged in the battery compartment, after the electric quantity of the battery is used up, the battery compartment can be opened to replace the battery, and the battery can adopt a button battery with a small structure.

2. The domino control system comprises a power supply module, a central control module and a domino control module, wherein the power supply module is composed of a rechargeable battery arranged inside the domino, the central control module is composed of a single chip microcomputer arranged inside the domino, and the surface of the domino is provided with a conductive contact which is respectively connected with the rechargeable battery and the single chip microcomputer; the domino programming toy further comprises a charger independent of the dominos, the charger is provided with one or more charging clamping grooves, conductive terminals matched with the conductive contacts are arranged in the charging clamping grooves, a single chip microcomputer and a power conversion module are arranged in the charger, the single chip microcomputer is respectively connected with the power conversion module and the conductive terminals, and the charger is further provided with a human-computer interaction module connected with the single chip microcomputer.

The specific working principle of the domino programming toy is explained by taking music programming as an example: the single chip microcomputer of the charger is connected with the central control module in the domino through a conductive terminal and a conductive contact to establish communication, and the single chip microcomputer of the charger sends note information corresponding to the charging slot to the central control module in the domino for storage, so that the domino in the charging slot is endowed with the note information; if the preset number of the notes is more than that of the charging card slot, batch processing is carried out, namely after the previous group of dominoes are inserted into the charging card slot and are endowed with corresponding note information, the group of dominoes are taken out, the next group of dominoes are inserted, the last operation is continued by the single chip microcomputer of the charger, the newly inserted dominoes are endowed with the rest notes, and the rest is done in the same way until all the preset number of the notes are endowed to the dominoes. The domino can be charged by a rechargeable battery in the domino after being inserted into the charging clamping groove, and the power supply conversion module, the charging principle and the like are similar to those of mobile phone charging and are the prior art.

Of course, if the domino is used for programming Chinese characters, a plurality of sections of words (such as ancient poems and the like) can be stored in the single chip microcomputer of the charger in advance, the single chip microcomputer of the charger gives single Chinese character information to the domino, the specific operation is similar to the music programming method, and the details are not repeated here.

The singlechip generally all has built-in memory cell, but the capacity is limited, and writes into the operation of new information comparatively complicated, for the information that the extension was stored the utility model discloses in, the charger still is equipped with the external storage module who links to each other with the singlechip, and this external storage module can be for the storage card, can introduce new music numbered musical notation etc. through the mode of changing the storage card or updating the storage card.

Specifically, the human-computer interaction module comprises a display screen and a key, and can be controlled by voice.

Furthermore, the domino and the charger are respectively provided with a wireless communication module for communication, the wireless communication module in the domino is connected with the single chip microcomputer in the domino, and the wireless communication module in the charger is connected with the single chip microcomputer in the charger. When the domino is toppled over, the single chip microcomputer in the domino sends a signal to the charger in a wireless communication mode, the single chip microcomputer in the charger identifies and records the musical notes represented by the domino, after all the dominos are toppled down, the single chip microcomputer in the charger forms the recorded musical note sequence into a music numbered musical notation, the music numbered musical notation is compared with the music numbered musical notation originally transmitted to the domino, whether the toppled-down sequence of the domino is correct (namely whether the played music is correct) is judged, and then the charger gives a prompt of whether the domino is correct or not through the man-machine interaction module. In addition, the player can arrange the domino by oneself and carry out the music creation, arranges the music score of creating with the form of domino out, then the domino falls down in proper order, and the corresponding note sequence of domino falls down in the charger record to generate the music numbered musical notation of player creation, this numbered musical notation can share to the internet.

3. The domino control system comprises a power supply module, a central control module and a domino control module, wherein the power supply module is composed of a rechargeable battery arranged inside the domino, the central control module is composed of a single chip microcomputer arranged inside the domino, and the surface of the domino is provided with a conductive contact which is respectively connected with the rechargeable battery and the single chip microcomputer; the domino programming toy further comprises a charger independent of the dominos, the charger is provided with one or more charging clamping grooves, conductive terminals matched with the conductive contacts are arranged in the charging clamping grooves, a single chip microcomputer, a wireless communication module and a power conversion module are arranged in the charger, and the single chip microcomputer is respectively connected with the power conversion module, the conductive terminals and the wireless communication module; domino programming toy still includes the intelligent control terminal who is independent of domino and charger, intelligent control terminal is connected with the singlechip wireless communication in the charger.

The specific working principle of the domino programming toy is explained by taking music programming as an example: the user can individually set the musical note of each domino through the intelligent control terminal, and can also select the music numbered musical notation to be played. The charger is in communication connection with the intelligent control terminal through the wireless communication module, the intelligent control terminal displays preset music numbered musical notes on a display interface of the intelligent control terminal through digital information, and meanwhile, the intelligent control terminal transmits the music numbered musical notes to the single chip microcomputer of the charger. Then, the single chip microcomputer of the charger carries out arrangement processing of the musical notes according to the music numbered musical notation, the processed musical notes are distributed to the charging card slots one by one, after the domino is inserted on the charging card slot, the single chip microcomputer of the charger is connected with the central control module in the domino through the conductive terminal and the conductive contact to establish communication, the single chip microcomputer of the charger sends the musical note information corresponding to the charging card slot to the central control module in the domino for storage, and thus the domino in the charging card slot is endowed with the musical note information; if the preset number of the notes is more than that of the charging card slot, batch processing is carried out, namely after the previous group of dominoes are inserted into the charging card slot and are endowed with corresponding note information, the group of dominoes are taken out, the next group of dominoes are inserted, the last operation is continued by the single chip microcomputer of the charger, the newly inserted dominoes are endowed with the rest notes, and the rest is done in the same way until all the preset number of the notes are endowed to the dominoes. The domino can be charged by a rechargeable battery in the domino after being inserted into the charging clamping groove, and the power supply conversion module, the charging principle and the like are similar to those of mobile phone charging and are the prior art.

Specifically, the intelligent control terminal is one of a computer and a mobile phone.

Furthermore, the domino is also provided with a wireless communication module for carrying out wireless communication with a single chip microcomputer in the intelligent control terminal and/or the charger, and the wireless communication module is connected with the single chip microcomputer in the domino. When the domino is toppled over, the single chip microcomputer in the domino sends a signal to the charger or the intelligent control terminal in a wireless communication mode, the single chip microcomputer (or the intelligent control terminal) in the charger identifies and records the musical notes represented by the domino, after all the dominos are toppled over, the single chip microcomputer (or the intelligent control terminal) in the charger forms the recorded musical note sequence into a music numbered musical notation, the music numbered notation is compared with the music numbered notation originally transmitted to the domino, whether the toppled-over sequence of the domino is correct (namely whether the played music is correct) is judged, and then the charger (or the intelligent control terminal) gives a prompt of whether the domino is correct or not through the man-machine interaction module. In addition, the player can arrange the domino by oneself and carry out the music creation, arranges the music score of creating with the form of domino out, then the domino falls down in proper order, and the corresponding note sequence of domino falls down in charger (or intelligent control terminal) record to the music numbered musical notation of generating the player creation, this numbered musical notation can share to the internet.

Furthermore, the charger is provided with a signal indicator lamp corresponding to each charging slot to display the charging state and/or the signal transmission state of the dominos in the charging slots. The charging in progress, the charging completion, the communication establishment success, the communication in progress and the medium state can all utilize the signal indicator lamp to carry out corresponding instruction to make things convenient for the user to know the condition of present charger and domino conveniently.

The utility model discloses a domino programming toy combines domino and programming, gives domino with information such as musical note, characters, realizes the sequencing to musical note, characters, falls down through domino in proper order, reaches the amusement effect of playing music or reading characters aloud, and then realizes the purpose of training children's programming in the amusement, is particularly suitable for school age children's education amusement.

Drawings

Fig. 1 is a schematic structural view of a domino programming toy of example 1.

FIG. 2 is a schematic view showing the structure of the domino in examples 1 and 3.

Fig. 3 is a schematic structural view of the charger in embodiment 1.

Fig. 4 is a schematic structural view of the domino programming toy of example 3.

Fig. 5 is a schematic structural view of a charger in embodiment 3.

FIG. 6 is a schematic view of the structure of a domino of example 5.

FIG. 7 is a schematic diagram of the note settings for the domino.

The figures are numbered: 1. domino; 11. a central control module; 12. a sound producing module; 13. a display module; 14. a dumping detection module; 15. a power supply module; 16. a conductive contact; 17. a button; 2. a charger; 21. a charging card slot; 22. a single chip microcomputer; 23. a wireless communication module; 24. a power conversion module; 25. a conductive terminal; 26. a signal indicator light; 27. the external storage module; 28. a display screen; 29. pressing a key; 3. and (5) intelligently controlling the terminal.

Detailed Description

The following description of the embodiments of the present invention will be made in detail with reference to the accompanying drawings, wherein the embodiments of the present invention are described in detail with reference to the accompanying drawings, for example, the shapes and structures of the respective members, the mutual positions and connection relationships between the respective portions, the functions and operation principles of the respective portions, and the like.

Example 1:

the embodiment provides a domino programming toy, which is used for training the programming ability of children and the cognitive abilities of music, Chinese characters and the like in a mode of teaching through lively activities.

As shown in fig. 1, the domino programming toy of the present embodiment includes a domino 1, a charger 2 and an intelligent control terminal 3. As shown in fig. 2, the following modules are provided in the domino 1: the central control module 11 is composed of a single chip microcomputer and is used for setting the sound emitted by the domino 1 and controlling the work of the sound generating module 12 and the display module 13; a sound production module 12 composed of a loudspeaker and connected with the central control module 11 for producing sound set by the central control module 11 when the domino 1 is toppled; a toppling detection module 14 composed of a gyroscope or other angle sensor, connected to the central control module 11, for detecting the state of the domino 1 and sending a trigger signal to the central control module 11 when the domino 1 topples; the display module 13 is composed of an LCD display screen and is connected with the central control module 11 for displaying the mark of the sound set by the central control module 11; and the power module 15 is used for supplying power to the modules, and the power module 15 is composed of a charging point battery.

In this embodiment, the bottom surface of the domino 1 is provided with a concave conductive contact 16, and the conductive contact 16 is respectively connected with the rechargeable battery and the single chip microcomputer for transmitting the charging current and the data information. The current required for the operation of the domino 1 is supplied by the power supply module 15 and the domino 1 is charged by the charger 2. The current of the power supply module 15 is output to a single chip microcomputer arranged in the domino 1, and the single chip microcomputer respectively outputs the current to the display module 13, the sounding module 12 and the dumping detection module 14.

The housing of the domino 1 is wrapped by a mute layer (the mute layer is not shown in the figure) made of silica gel material, so as to reduce noise when the domino 1 falls down and is impacted.

As shown in fig. 3, the charger 2 of the present embodiment is provided with a plurality of charging card slots 21, conductive terminals 25 matched with the conductive contacts 16 are arranged in the charging card slots 21, a single chip 22, a wireless communication module 23 and a power conversion module 24 are arranged in the charger 2, and the single chip 22 is connected to the power conversion module 24, the conductive terminals 25 and the wireless communication module 23 respectively; in this embodiment, the wireless communication module 23 is a bluetooth module, the power conversion module 24 is composed of a transformer, and is configured to reduce the voltage of the utility power to a predetermined low voltage, and the power conversion module 24 outputs a current to the single chip microcomputer 22 in the charger 2, and outputs the current to each charging slot 21 after being processed by the single chip microcomputer 22, so as to ensure that a plurality of dominos 1 can be charged simultaneously.

The charger 2 is provided with a signal indicator lamp 26 corresponding to each charging slot 21 for displaying the charging state and/or the signal transmission state of the domino 1 in the charging slot 21. The states of charging in progress, charging completion, successful communication establishment and communication in progress can be correspondingly indicated by the signal indicating lamp 26, so that a user can conveniently know the conditions of the current charger 2 and the domino 1. In this embodiment, each charging slot 21 is correspondingly provided with two signal indicating lamps 26, one is a charging indicating lamp, and the other is a signal transmission indicating lamp, so as to respectively display the charging state and the signal transmission state.

The intelligent control terminal 3 of this embodiment adopts a smart phone, and the intelligent control terminal 3 is in communication connection with the single chip microcomputer 22 in the charger 2 in a bluetooth communication mode.

The following takes music programming as an example to illustrate the specific working principle of the domino programming toy of the embodiment:

the user can individually set the note of each domino 1 through the intelligent control terminal 3, and can also select the music numbered musical notation to be played. The charger 2 is in communication connection with the intelligent control terminal 3 through the wireless communication module 23, the intelligent control terminal 3 displays preset music numbered musical notation on a display interface of the intelligent control terminal 3, and meanwhile, the intelligent control terminal 3 transmits the music numbered musical notation information to the single chip microcomputer 22 of the charger 2.

Then, the single chip microcomputer 22 of the charger 2 performs arrangement processing of musical notes according to the music numbered musical notation, the processed musical notes are distributed to the charging card slot 21 one by one, after the domino 1 is inserted into the charging card slot 21, the single chip microcomputer 22 of the charger 2 is connected with the central control module 11 in the domino 1 through the conductive terminal 25 and the conductive contact 16 to establish communication, the single chip microcomputer 22 of the charger 2 sends musical note information corresponding to the charging card slot 21 to the central control module 11 in the domino 1 for storage, and thus the domino 1 in the charging card slot 21 is endowed with the musical note information; if the preset number of notes is more than that of the charging slot 21, batch processing is carried out, namely, after the previous group of domino 1 is inserted into the charging slot 21 and is endowed with corresponding note information, the group of domino 1 is taken out, the next group of domino 1 is inserted, the singlechip 22 of the charger 2 continues the last operation, the newly inserted domino 1 is endowed with the rest notes, and the rest is repeated until all the preset number of notes are endowed on the domino 1. The domino 1 can be charged by the rechargeable battery in the domino 1 after being inserted into the charging slot 21, and the power conversion module 24 and the charging principle are similar to those of mobile phone charging, and are the prior art.

After the domino 1 is endowed with a specific note, the central control module 11 displays the note on the display module 13 (as shown in fig. 7, specifically including contents such as high pitch, low pitch, long pitch, short pitch, no pitch and the like), a user arranges a plurality of dominos 1 in a domino 1 row according to a preset sequence and interval, when the toppling detection module 14 in the dominos 1 detects that the dominos 1 fall down, a trigger signal is sent to the central control module 11, and the central control module 11 controls the sound production module 12 to send out the set note. The domino 1 is fallen down in sequence, the sound emitted by the single domino 1 can be connected into preset music and the like, so that the editing of notes is realized, children can obtain certain achievement feeling, and the learning fun of the children is improved.

If the fall time of the domino 1 is too fast, the soundless domino 1 can be added to ensure that the domino 1 falls down and sounds at a normal rhythm or speech speed. The silent domino 1 can be a common solid domino 1, or the domino 1 can be set as the silent domino 1 by not giving any musical note to the domino 1. When a certain note needs to be prolonged to sound, a single domino 1 can be set as a prolonged sound, for example, 5-represents a sol sound in the original music score to be prolonged by 1 beat, when the domino 1 is placed, a sol prolonged sound domino 1 (represented by sol) and a silent domino 1 are needed, and the method for endowing notes by the domino 1 is similar to the step 1. When the two dominos 1 are laid down in sequence, the sol-sound domino 1 sounds for one beat, while the silent domino 1 laid down later does not sound. If the rhythm requires longer pause time, the number of the silent dominos 1 can be increased according to the situation, and the playing effect of prolonging the sound to be multi-beat can be realized by the method.

When the battery power in the domino 1 is exhausted, the display module 13 on the domino 1 emits red flicker to prompt low power, and the domino 1 is inserted into the charging slot 21 of the charger 2 to be charged.

Certainly, if the domino 1 is used for programming Chinese characters, music scores can be replaced by a plurality of pieces of words (such as ancient poems and the like), the single-chip microcomputer 22 of the charger 2 gives single Chinese character information to the domino 1, the specific operation is similar to the music programming method, and details are not repeated here.

Example 2:

different from the embodiment 1, in the embodiment, the domino 1 is further provided with a wireless communication module for performing wireless communication with a single chip microcomputer in the intelligent control terminal 3 and/or the charger 2, and the wireless communication module is connected with the single chip microcomputer in the domino 1.

When the domino 1 is toppled over, the single chip microcomputer in the domino 1 sends a signal to the charger 2 or the intelligent control terminal 3 in a wireless communication mode, the single chip microcomputer (or the intelligent control terminal 3) in the charger 2 identifies and records the musical notes represented by the domino 1, after all the dominos 1 are toppled down, the single chip microcomputer (or the intelligent control terminal 3) in the charger 2 forms the recorded musical note sequence into a music numbered musical notation, the music numbered musical notation is compared with the music numbered musical notation originally transmitted to the domino 1, whether the toppled-down sequence of the domino 1 is correct (namely whether the played music is correct) is judged, and then the charger 2 (or the intelligent control terminal 3) gives a prompt of whether the domino 1 is correct or not through the human-computer interaction module. In addition, the player can arrange domino 1 by oneself to carry out the music creation, arranges the music score of creating with domino 1's form, then domino 1 falls down in proper order, and charger 2 (or intelligent control terminal 3) record the musical note sequence that falls down domino 1 corresponding to generate the music numbered musical notation that the player created, this numbered musical notation can share to the internet.

Example 3:

unlike embodiments 1 and 2, this embodiment does not include the intelligent control terminal 3, and the structure of the charger 2 is different from embodiment 1.

As shown in fig. 4, the domino programming toy of this embodiment is composed of a domino 1 and a charger 2, and the domino 1 of this embodiment is the same as that of embodiment 1, and will not be described herein again.

As shown in fig. 5, the charger 2 of this embodiment is provided with a plurality of charging card slots 21, conductive terminals 25 matched with the conductive contacts 16 are arranged in the charging card slots 21, a single chip microcomputer 22, an external storage module and a power conversion module 24 are arranged in the charger 2, the single chip microcomputer 22 is respectively connected with the power conversion module 24, the external storage module 27 and the conductive terminals 25, the charger 2 is further provided with a human-computer interaction module connected with the single chip microcomputer 22, and in this embodiment, the human-computer interaction module is a display screen 28 and keys 29. The power conversion module 24 is composed of a transformer and is used for reducing the voltage of the mains supply to a preset low voltage, the power conversion module 24 outputs current to the single chip microcomputer 22 in the charger 2, the current is respectively output to the charging card slots 21 after being processed by the single chip microcomputer 22, and therefore the plurality of dominos 1 can be charged simultaneously. The external storage module 27 is a memory card (e.g., an SD card, a usb disk, etc.), and can introduce a new music score through replacing the memory card or updating the memory card.

The charger 2 is provided with a signal indicator lamp 26 corresponding to each charging slot 21 for displaying the charging state and/or the signal transmission state of the domino 1 in the charging slot 21. The states of charging in progress, charging completion, successful communication establishment and communication in progress can be correspondingly indicated by the signal indicating lamp 26, so that a user can conveniently know the conditions of the current charger 2 and the domino 1. In this embodiment, each charging slot 21 is correspondingly provided with two signal indicating lamps 26, one is a charging indicating lamp, and the other is a signal transmission indicating lamp, so as to respectively display the charging state and the signal transmission state.

The following takes music programming as an example to illustrate the specific working principle of the domino programming toy of the embodiment:

the single chip microcomputer 22 of the charger 2 stores a certain number of music numbered musical notations, a user selects one music numbered musical notation through the man-machine interaction module, the single chip microcomputer 22 of the charger 2 performs arrangement processing of musical notes according to the music numbered musical notations, the processed musical notes are distributed to the charging card slot 21 one by one, after the domino 1 is inserted into the charging card slot 21, the single chip microcomputer 22 of the charger 2 is connected with the central control module 11 in the domino 1 through the conductive terminal 25 and the conductive contact 16 to establish communication, the single chip microcomputer 22 of the charger 2 sends musical note information corresponding to the charging card slot 21 to the central control module 11 in the domino 1 for storage, and thus the domino 1 in the charging card slot 21 is endowed with the musical note information; if the preset number of notes is more than that of the charging slot 21, batch processing is carried out, namely, after the previous group of domino 1 is inserted into the charging slot 21 and is endowed with corresponding note information, the group of domino 1 is taken out, the next group of domino 1 is inserted, the singlechip 22 of the charger 2 continues the last operation, the newly inserted domino 1 is endowed with the rest notes, and the rest is repeated until all the preset number of notes are endowed on the domino 1. The domino 1 can be charged by the rechargeable battery in the domino 1 after being inserted into the charging slot 21, and the power conversion module 24 and the charging principle are similar to those of mobile phone charging, and are the prior art.

Of course, if the domino 1 is used for programming Chinese characters, a plurality of pieces of words (such as ancient poems and the like) can be stored in the single chip microcomputer 22 of the charger 2 in advance, the single chip microcomputer 22 of the charger 2 gives single Chinese character information to the domino 1, the specific operation is similar to the music programming method, and details are not repeated here.

Example 4:

different from the embodiment 3, in the embodiment, the domino 1 and the charger 2 are respectively provided with a wireless communication module for communication, the wireless communication module in the domino 1 is connected with the single chip microcomputer in the domino 1, and the wireless communication module in the charger 2 is connected with the single chip microcomputer in the charger 2.

In addition to the music programming method in embodiment 3, in this embodiment, when the domino 1 falls down, the single chip microcomputer in the domino 1 sends a signal to the charger 2 in an infinite communication manner, the single chip microcomputer in the charger 2 identifies and records the musical notes represented by the domino 1, after all the dominos 1 fall down, the single chip microcomputer in the charger 2 forms the recorded musical note sequence into a music numbered musical notation, compares the musical note sequence with the music numbered musical notation originally transmitted to the domino 1, determines whether the falling sequence of the domino 1 is correct (i.e., whether the played music is correct), and then the charger 2 gives a prompt whether the music is correct through the man-machine interaction module. In addition, the player can arrange domino 1 by oneself and carry out the music creation, arranges the music score of creating with domino 1's form, then domino 1 falls down in proper order, and the corresponding note sequence of domino 1 that falls down is recorded to charger 2 to generate the music numbered musical notation of player's creation, this numbered musical notation can share to the internet.

Example 5:

the domino programming toy of the present embodiment is composed of a plurality of dominos 1, as shown in fig. 6, the following modules are provided in the dominos 1: the central control module 11 consists of three buttons 17 arranged on the surface of the domino 1 and a single chip microcomputer 22 arranged in the domino 1 and is used for setting the sound emitted by the domino 1 and controlling the work of the sound generating module 12 and the display module 13; a sound production module 12 composed of a loudspeaker and connected with the central control module 11 for producing sound set by the central control module 11 when the domino 1 is toppled; a toppling detection module 14 composed of a gyroscope or other angle sensor, connected to the central control module 11, for detecting the state of the domino 1 and sending a trigger signal to the central control module 11 when the domino 1 topples; the display module 13 is composed of an LCD display screen 28 and is connected with the central control module 11 for displaying the mark of the sound set by the central control module 11; and the power module 15 is used for supplying power to the modules, and the power module 15 is composed of a charging point battery.

The three buttons 17 are a note adjusting button 17, a duration adjusting button 17 and a high and low tone adjusting button 17 respectively, wherein each time the note adjusting button 17 is pressed, the single chip microcomputer 22 changes a note according to a preset sequence until a proper note is found; each time the duration adjusting button 17 is pressed, the singlechip 22 changes one duration according to a preset sequence until a proper duration is found; when the high and low tone adjusting button 17 is pressed once, the singlechip 22 changes a tone pitch according to a preset sequence until a proper tone pitch is found; through the cooperation of the three buttons 17 and the single chip microcomputer 22, proper sound can be set.

The power module 15 of this embodiment is composed of an openable battery compartment and a battery disposed in the battery compartment, and after the battery capacity is used up, the battery compartment can be opened to replace the battery, and the battery can be a button battery with a small structure.

The user can freely adjust information such as notes, tones, pitches and the like of each domino 1 according to the paper music score, and other playing methods are consistent with the scheme and are not described again.

The present invention has been described in detail with reference to the accompanying drawings, and it is apparent that the present invention is not limited by the above embodiments, and various insubstantial improvements can be made without modification to the present invention.

Claims (10)

1. The utility model provides a domino programming toy, includes the domino, its characterized in that be equipped with in the domino:

the central control module is used for setting the sound emitted by the domino and controlling the work of the sound production module and the display module;

the sounding module is connected with the central control module and used for sounding the central control module when the domino is toppled over;

the dumping detection module is connected with the central control module and used for detecting the state of the domino and sending a triggering signal to the central control module when the domino is dumped;

the display module is connected with the central control module and is used for displaying the marks of the sound set by the central control module;

and the power supply module supplies power to the modules.

2. The domino programming toy according to claim 1, wherein said dominos have a surface provided with a silent strip or layer of soft material.

3. The domino programming toy of claim 1, wherein the central control module comprises a plurality of buttons arranged on the surface of the domino and a single chip microcomputer arranged inside the domino, and the single chip microcomputer is respectively connected with the buttons, the sounding module, the dumping detection module, the display module and the power supply module.

4. The domino programming toy of claim 3, wherein said power module comprises a battery compartment that can be opened and closed and a battery disposed within said battery compartment.

5. The domino programming toy according to claim 1, wherein the power module is composed of a rechargeable battery arranged inside the domino, the central control module is composed of a single chip microcomputer arranged inside the domino, conductive contacts are arranged on the surface of the domino, and the conductive contacts are respectively connected with the rechargeable battery and the single chip microcomputer; the domino programming toy further comprises a charger independent of the dominos, the charger is provided with one or more charging clamping grooves, conductive terminals matched with the conductive contacts are arranged in the charging clamping grooves, a single chip microcomputer and a power conversion module are arranged in the charger, the single chip microcomputer is respectively connected with the power conversion module and the conductive terminals, and the charger is further provided with a human-computer interaction module connected with the single chip microcomputer.

6. The domino programming toy of claim 5, wherein said charger further comprises an external memory module connected to said single-chip microcomputer.

7. The domino programming toy according to claim 5, wherein the domino and the charger are respectively provided with a wireless communication module for communication, the wireless communication module in the domino is connected with the single chip microcomputer in the domino, and the wireless communication module in the charger is connected with the single chip microcomputer in the charger.

8. The domino programming toy according to claim 1, wherein the power module is composed of a rechargeable battery arranged inside the domino, the central control module is composed of a single chip microcomputer arranged inside the domino, conductive contacts are arranged on the surface of the domino, and the conductive contacts are respectively connected with the rechargeable battery and the single chip microcomputer; the domino programming toy further comprises a charger independent of the dominos, the charger is provided with one or more charging clamping grooves, conductive terminals matched with the conductive contacts are arranged in the charging clamping grooves, a single chip microcomputer, a wireless communication module and a power conversion module are arranged in the charger, and the single chip microcomputer is respectively connected with the power conversion module, the conductive terminals and the wireless communication module; domino programming toy still includes the intelligent control terminal who is independent of domino and charger, intelligent control terminal is connected with the singlechip wireless communication in the charger.

9. The domino programming toy according to claim 1, wherein the domino is further provided with a wireless communication module for wireless communication with a single chip microcomputer in the intelligent control terminal and/or the charger, and the wireless communication module is connected with the single chip microcomputer in the domino.

10. The domino programming toy according to claim 5, 6, 7, 8 or 9, wherein said charger is provided with a signal indicator light corresponding to each charging slot for displaying the charging status and/or signal transmission status of dominos in the charging slot.

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