阅读说明：本技术 智能自动教学乐器 (Intelligent automatic teaching musical instrument ) 是由 孟令松 孟硕 于 2021-09-12 设计创作，主要内容包括：本发明提供了一种智能自动教学乐器,属于乐器领域。传统乐器演奏学习难度大、辛苦、费力、费事、费时、学费高。很多想学习演奏乐器的人因此打消了购买乐器的念头。以智能自动教学唢呐为例,哪一个手指上佩戴的导航灯亮起,就对应抬起哪一个手指和该手指前方的所有位于音孔上的手指,于此同时要观察该手指亮起的是绿色的缓吹音符还是红色的超吹音符,如果是缓吹音符亮起按照缓吹的吹奏方法吹奏该音符,如果是超吹音符亮起按照超吹的吹奏方法吹奏该音符；当亮起的是黄色的缓吹筒音时不抬手指直接缓吹吹奏即可…广泛用于乐器演奏智能自动教学领域,使人们在不知不觉的愉快的游戏中轻松掌握乐器的演奏和通晓音律,也更方便同时进行唱谱、记谱、认谱。(The invention provides an intelligent automatic teaching musical instrument, and belongs to the field of musical instruments. The traditional musical instrument has the disadvantages of difficult playing and learning, hard and hard playing, trouble taking, time taking and high learning cost. Many people who want to learn to play a musical instrument therefore defeat the idea of purchasing a musical instrument. Taking intelligent automatic teaching suona as an example, when a navigation lamp worn on one finger is turned on, the finger and all fingers in front of the finger on a sound hole are correspondingly lifted, and whether the finger is turned on is a green slow blowing note or a red super blowing note is observed, if the finger is turned on, the note is played according to a slow blowing playing method, and if the finger is turned on, the note is played according to a super blowing playing method; when the yellow slow blowing barrel tone is lightened, … can be widely used in the intelligent automatic teaching field of musical instrument playing without lifting fingers to directly perform slow blowing playing, so that people can easily master the playing and the tone rhythm of the musical instrument in unconscious and happy games and can also more conveniently perform music score recording and music score recognition at the same time.)

1. An intelligent automatic teaching musical instrument is composed of hardware and programming songs; the hardware comprises musical instruments and navigators; the navigator is mainly characterized by comprising a navigation finger sleeve arranged on a finger, navigation notes on the finger sleeve and navigation light, and the navigation light is controlled by programming to realize the intelligent accurate automatic teaching purpose of playing music.

2. The intelligent automatic teaching musical instrument according to claim 1, wherein: the navigation fingerstall is made into a size adjustable in tightness or non-adjustable; the navigation panel is positioned on the circumferential surface of the finger sleeve or above the circumferential surface of the finger sleeve, the navigation panel can move leftwards or rightwards, and the notes on the panel can be arranged leftwards and rightwards or upwards and downwards; all the colors of the navigation lights are the same or different; the colors of characters, symbols and musical notes of the navigation panel are completely the same or different; the navigation finger sleeve is fixed at one joint or more than one joint on the finger and is made into a structure the same as or similar to that of the glove; the navigation finger sleeve and the navigation glove are made into a structure which is air-permeable or air-impermeable.

3. The intelligent automatic teaching musical instrument according to claim 1, wherein: the lamp used for the light navigation is an LED lamp, and the control navigation of the LED light is realized through an LED programming control system.

4. The intelligent automatic teaching musical instrument according to claim 1, wherein: the playing speed of the light navigation song is adjustable or not.

5. The intelligent automatic teaching musical instrument according to claim 1, wherein: a structure is made that contains a removable or non-removable memory card.

6. The intelligent automatic teaching musical instrument according to claim 1, wherein: a structure with bluetooth functionality is made.

7. The intelligent automatic teaching musical instrument according to claim 1, wherein: the structure is made to be connected with electronic products such as computers, mobile phones and the like through wires.

8. The intelligent automatic teaching musical instrument according to claim 1, wherein: different purpose LED lamps may be defined to be the same or different colors.

9. The intelligent automatic teaching musical instrument according to claim 1, wherein: the LED navigation can be used simultaneously with video navigation or only with LED navigation, the navigator has a screen display or does not have a screen display, and the screen of the navigator is a liquid crystal screen, a nixie tube display screen, a kinescope screen, a dot matrix display screen and a projection screen.

Technical Field

The invention belongs to the field of musical instruments and the field of music teaching, can realize normal playing by directly picking up the musical instrument by people without any music foundation, can be widely applied to the fields of manufacturing and using various musical instruments and intelligent automatic teaching, and can be made into various intelligent navigation musical instruments and various intelligent musical instrument navigators.

Background

The playing of various traditional musical instruments is difficult, hard, laborious, time-consuming and high in learning cost. Many people who want to play (blow) a musical instrument therefore defeat the idea of purchasing a musical instrument. For example, most families buy more than one or two (a plurality of) instruments such as a clarinet, a cucurbit flute and an electronic organ which are visible everywhere, and when the heat of three minutes which is bought home is excited, the users can see the fingering list and other data brought by the instruments and practice the exercise by taking care of the exercise, and usually, the users can only blow out sound or play the sound with a few tones to taste shallow, and finally the instruments lie in a certain place in a house quietly for years.

Disclosure of Invention

The invention provides an intelligent automatic teaching musical instrument, and belongs to the field of musical instruments. Taking intelligent automatic teaching suona as an example, when a navigation lamp worn on one finger is turned on, the finger and all fingers in front of the finger on a sound hole are correspondingly lifted, and whether the finger is turned on is a green slow blowing note or a red super blowing note is observed, if the finger is turned on, the note is played according to a slow blowing playing method, and if the finger is turned on, the note is played according to a super blowing playing method; when the yellow slow blowing barrel is lightened, the finger is not lifted, and the slow blowing is directly performed. The music score learning system is widely applied to the field of intelligent automatic teaching of musical instrument playing, enables people to easily master the musical instrument playing and know the temperament in unconscious and happy games, and is more convenient to sing, recording and recognizing music scores simultaneously. The invention is suitable for various instruments in playing modes at home and abroad, such as flute, clarinet, oboe, bassoon, trumpet, trombone, flute, bagpipe, saxophone, cucurbit flute, electroblowpipe, sheng, bawu, Xun le, etc. The intelligent automatic teaching musical instrument allows a person without any musical basis to easily learn the performance of the musical instrument in an unconscious pleasure game. The slow blowing is the minimum airflow that the instrument can normally and stably produce sound, the super blowing is the maximum airflow that the instrument can normally and stably produce sound, and the slow blowing can be mastered by blowing with different forces. When a note is played, all the navigation lights are not on (all the navigation lights are off) to indicate that the note playing is finished, and at the moment, the playing is stopped immediately, and the next note is played according to the note conversion fingering which is turned on again. When all the navigation lights are not turned off between the two notes, the fact that one note in playing is directly converted to the next note represents a continuous sound, and the direct conversion fingering is not stopped when the middle of playing the breath to play the next musical scale continuously. When the ventilation v-shaped lamp is turned on, the playing needs to be stopped for ventilation.

Drawings

Fig. 1-1 is a construction diagram of a suona.

Fig. 1-2 are illustrations a method for applying intelligent automatic teaching suona.

Fig. 1-3 are illustrations B of the method of application of the intelligent automatic teaching suona.

Fig. 1-4 are diagrams of fingerstall navigation lights of the intelligent automatic teaching suona.

Fig. 1-5 are structural diagrams of the loop surface direction of the suona navigation lamp finger stall of the nested intelligent automatic teaching.

Fig. 1-6 are diagrams of an example of an 18-circuit external power supply type LED auto-teaching suona.

Fig. 1-7 are diagrams of three embodiments of navigation finger cuff frameworks.

Fig. 1-8 are diagrams of the digital panel structure pasted on the navigation finger stall framework.

Fig. 1-9 are diagrams of an embodiment of a navigation cuff.

FIGS. 1-10 are diagrams of an exemplary embodiment of an automated teaching suona

FIGS. 1-11 are three icons of LED programming software and grid animation software turn-on diagrams

FIGS. 1-12 are graphs of the number of notes for a song that the LED programming software requires to set

FIGS. 1-13 are software opening diagrams for LED programming software to select notes that currently need to be lit and engineering files

Detailed Description

Fig. 1-1 is a construction diagram of a suona. In the figure 1 is the nozzle (whistle) of a suona. In the figure 2 is the air pan of the suona. In the figure 3 the core (copper tube) of the suona horn is shown. In the figure 4 is the suona pole of the suona horn. Figure 5 is the suona bowl of suona. In the figure, a1 shows the first foremost tone hole on the suona pole as a barrel tone swooshing, and the tone hole blows out a bass pull, which is handled by the right-hand little finger. In the drawing, A2 is the swooshing of the second sound hole on the suona pole according to the cylinder sound, the bass west is blown out of the sound hole by adopting the slow blowing method, the middle west is blown out of the sound hole by adopting the super blowing method, and all the sound holes are all responsible for the right-hand ring finger. In the drawing, A3 is a swoosh sound hole in the suona pole according to the barrel sound, the medium pitch all (duo) is blown out of the sound hole by adopting the slow blowing method, and the high pitch all (duo) is blown out of the sound hole by adopting the super blowing method and is all responsible for the middle finger of the right hand. In the drawing, A4 is a swoosh (shuttle) made according to the cylinder sound of a fourth sound hole on the suona pole, the sound hole blows a middle pitch by adopting a slow blowing method, and the sound hole blows a high pitch by adopting a super blowing method, and both the sound holes are taken by a right index finger. In the drawing, A5 is a swoosh (shuttle) made by cylinder sound in a fifth sound hole on the suona pole, a middle-pitch microphone blows out the sound hole by adopting a slow blowing method, and a high-pitch microphone blows out the sound hole by adopting an ultra-blowing method, and the high-pitch microphones are all responsible for the left-hand ring finger. In the drawing, A6 is a swoosh (shuttle) made according to the cylinder sound of a sixth sound hole on the suona pole, the sound hole blows out medium-pitch sound by adopting a slow blowing method, and the sound hole blows out high-pitch sound by adopting an ultra-blowing method, and the high-pitch sound is all taken charge of by a middle finger of the left hand. In the drawing, A7 is that the seventh sound hole on the suona pole is swoosh according to the cylinder sound, the sound hole is swoosh with the middle sound by adopting the slow blowing method, the sound hole is swoosh with the high sound by adopting the super blowing method, and the sound hole is all responsible for by the left thumb, the sound hole is arranged at the bottom (lower part) of the suona pole so as to be convenient for the thumb to press, and the sound holes responsible for other fingers of two hands are arranged on the suona pole. In the drawing, A8 is that the eighth sound hole on the suona pole is swoosh (shuttle) according to the cylinder sound, the sound hole blows out the middle sound by adopting the slow blowing method, and the sound hole blows out the high sound by adopting the ultra blowing method, and both the sound hole and the sound hole are taken by the index finger of the left hand.

Fig. 1-2 are illustrations a method for applying intelligent automatic teaching suona. In fig. 1-2 the suona has been held in the fingered position of fig. 1-1 by both hands. It can be seen from the figure that nine navigation finger sleeves with leads are respectively worn on nine fingers of two hands. In fig. 1-2, 1 is a first sound hole navigation finger cot, which is the foremost first sound hole on a suona pole in charge of the right little finger, a luminous note panel integrated with the finger cot is arranged on the finger cot, a low-pitch character pattern is printed (or sprayed) on the surface of the panel, an LED lamp is arranged inside or on the back of the panel, in the figure, a1 is a power line connected with the LED lamp, and the other end of the wire is connected with an LED programming controller; 2 is a second sound hole navigation finger sleeve, the finger sleeve is a second sound hole on the suona pole which is responsible for the right-hand ring finger, a luminous note panel which is integrated with the finger sleeve is arranged on the finger sleeve, characters of low-pitch west and middle-pitch west are printed (or sprayed and the like) on the surface of the panel, an LED lamp is arranged inside or on the back of the panel, A2 in the figure is a power line connected with the LED lamp, and the other end of the wire is connected with an LED programming controller; 3 is the 3 rd sound hole navigation finger stall, this finger stall is the third sound hole on the suona pole that is responsible for of the finger in the right hand, paste (or make integrative) luminous note panel on this finger stall surface, there are characters that the middle pitch is all and the high pitch is all on the note panel printing (or spraying etc.), is equipped with the LED lamp inside this panel or the back, A3 is the power cord that links to each other with the LED lamp in the figure, the other end of the electric wire is connected with LED programming controller; 4 is the 4 th sound hole navigation finger stall, this finger stall is the fourth sound hole on the suona pole that the index finger of the right hand is responsible for, paste (or make integrative) luminous note panel on this finger stall surface, the note panel is printed (or spray etc.) has the characters that the middle pitch comes and the high pitch comes, is equipped with the LED lamp inside this panel or the back, A4 is the power cord that links to each other with the LED lamp in the figure, the other end of the electric wire is connected with LED programming controller; 5 is a fifth sound hole navigation finger cot, the finger cot is a fifth sound hole on the suona pole which is responsible for the left-hand ring finger, a luminous note panel which is integrated with the finger cot is arranged on the finger cot, characters of a middle-sound microphone and a high-sound microphone are printed (or sprayed, etc.) on the surface of the panel, an LED lamp is arranged inside or on the back of the panel, A5 in the figure is a power cord which is connected with the LED lamp, and the other end of the wire is connected with an LED programming controller; 6 is the 6 th sound hole navigation finger cot, the finger cot is the 6 th sound hole on the suona pole which is responsible for the middle finger of the left hand, the surface of the finger cot is pasted with (or made into an integral) luminous note panel, and the surface of the panel is printed with (or sprayed with, etc.) words with middle and high tone, the inside or the back of the panel is provided with an LED lamp, in the figure, A6 is a power line connected with the LED lamp, and the other end of the wire is connected with an LED programming controller; 8 is the 8 th sound hole navigation finger stall, this finger stall is the 8 th sound hole on the suona pole that the left index finger is responsible for, paste (or make integrative) luminous musical note panel on this finger stall surface, the printing (or spraying etc.) has the characters that the middle pitch is drawn and the high pitch is drawn on the musical note panel, is equipped with the LED lamp inside this panel or the back, A8 is the power cord that links to each other with the LED lamp in the figure, the other end of the electric wire is connected with LED programming controller; 9 is a tubular tone swooshing and ventilating (V) navigation finger sleeve with a left little finger, on which a luminous note panel integrated with the finger sleeve is placed, and words with the swooshing and ventilating symbols V are printed (or sprayed, etc.) on the surface of the panel, and LED lamps are installed inside or on the back of the panel (one LED lamp is installed corresponding to each word or note panel); the barrel sound swooshing is defined as yellow light, and the ventilation is defined as blue light; ordinary amateurs can not adopt standard breathing methods, more ventilation symbols can be added when programming songs, playing can be stopped when the ventilation symbols appear each time, and the ventilation time can be set to be about 2 seconds (namely about 2000 milliseconds); a9 is a power line connected with the LED lamp, and the other end of the power line is connected with the LED programming controller; a7 is the connecting wire of the navigation dactylotheca 7 of wearing on the thumb, and electric wire one end is connected the other end with the navigation dactylotheca and is connected with LED programming controller, and navigation dactylotheca 7 does not draw in this picture, and every navigation dactylotheca and musical note all clearly visible in user's good sight within range in the use of actual suona.

The navigation finger sleeve can be worn on any joint of a finger, and can also be prolonged to be sleeved on two or more joints simultaneously, and the finger sleeve can also be made into a glove structure; the finger stall or the glove can adopt a reticular air-permeable structure or an air-impermeable structure, and can also be made into a structure which can simultaneously cover a plurality of joints, and the connection of the finger stall at the joints can be annular connection or partial annular connection; the luminous note panel can directly set up on the circumference surface of dactylotheca, also can make luminous note panel in the dactylotheca top alone, for preventing sheltering from each other between the luminous note panel and between the finger, the luminous note panel that sets up in the dactylotheca top also can move the manufacturing to dactylotheca left side or right side. The navigation finger stall is made of soft silica gel (or one or more of other various soft materials, of course, textile materials can also be contained in the navigation finger stall), and the silica gel material can be transparent or semi-transparent materials with various colors. When in use, the finger sleeves marked with different musical notes are respectively brought to corresponding fingers according to the picture 1-2, the navigator (LED programming controller) is turned on, and the required music can be called to play. The navigation finger cuff 9 of fig. 1-2 may be designed not to be worn on the left little finger, and the tubular tone (bass) of the navigation finger cuff 9 in the application example of the present invention employs a yellow LED lamp. In the invention, each navigation finger sleeve is provided with a left note and a right note, the left side is defined as a slow blowing note, the right side is defined as an ultra-blowing note, and one note is a slow blowing note. The diacritics may be arranged above and below the left and right.

Fig. 1-3 are illustrations B of the application method of the intelligent automatic teaching suona, which are additional illustrations of the left thumb navigation finger stall not shown in fig. 1-2. Fig. 7 is a7 th sound hole navigation finger stall, which is a7 th sound hole on a suona pole for the left thumb, a luminous note panel is pasted (or made into a whole) on the surface of the finger stall, characters with middle and high tones are printed (or sprayed, etc.) on the note panel, an LED lamp is arranged inside or on the back of the panel, a7 in the figure is a power line connected with the LED lamp, and the other end of the power line is connected with an LED programming controller. The musical notes on the navigation luminous musical note panel can also be made into three-dimensional characters (convex or concave) made of materials with the same color or different colors by adopting dies of equipment such as an injection molding machine and the like, or coated with materials with the same color or different colors.

Fig. 1-4 are diagrams of fingerstall navigation lights of the intelligent automatic teaching suona. In the figure 1, one side surface of the annular navigation finger sleeve is shown, and the upper surface is wide and the lower surface is narrow, so that discomfort caused by bending of the joint can be effectively prevented. In the figure 2, a luminous note panel (an intelligent automatic teaching musical instrument navigation fingerstall light-emitting panel or a navigation panel) which is manufactured into a whole and is positioned above the fingerstall is arranged, characters of a middle-pitch microphone and a high-pitch microphone are respectively printed (or sprayed) on the left side and the right side of the panel in the figure, a vertical line of the figure 2 is a vertical line of a left side and a right side boundary, the boundary can be made of a dark material to reduce light transmission (the boundary can be higher or not higher than the plane of the panel), and the boundary material can be removed only by spraying or not spraying the boundary; the bottom of the LED lamp with the anti-light-transmitting material can be provided with the anti-light-transmitting material (or not); the navigation luminous note panel 2 is directly removed, the navigation panel is directly installed and designed on the surface of the circumference of the fingerstall, a simpler and more stable practical fingerstall structure is formed, and the note panel navigation fingerstalls with different structures are staggered from top to bottom, from front to back, from left to right, so that a navigation musical instrument (intelligent automatic teaching navigation musical instrument) user can watch the fingerstall more easily and conveniently. Each navigation note can also be designed as an independent or non-independent window-shaped structure of any simple or complex geometric figure shape, such as square, square round corner, circle, ellipse, triangle, trapezoid, etc. In the figure 3, an LED navigation lamp outgoing line is arranged, LED lamps are arranged in the navigation note panel or on the back of the navigation note panel, each note is LED out through the outgoing line 3, each note needs one navigation LED lamp, two notes are two LED lamps, the outgoing lines on the navigation panel of the navigation finger sleeve are at least three, and each outgoing line comprises a public end connecting line. As shown in fig. 1-4, the finger ring having a trapezoidal structure is wide at the top and narrow at the bottom when viewed from the side, but the finger ring may also have a structure having the same width at the top and the bottom, only the length of the material is increased above (on the top surface), and the length of the material above may not be increased.

Fig. 1-5 are structural diagrams of the loop surface direction of the suona navigation lamp finger stall of the nested intelligent automatic teaching, namely the interface structural diagram of the finger entering surface. In the figure 1, the inner space of the navigation finger sleeve is used for placing a part of joints of fingers. In fig. 2, the navigation light note panel is shown on the back side, and the opposite side of the back side is shown on the front side, which is printed (or painted, etc.) with the note. In the figure, 3 is the side surface of the navigation luminous note panel, the navigation LED lamp is arranged inside the navigation note panel, and a wire connected with the LED navigation lamp is LED out from the inside of the panel through the bottom of the side surface of the panel. In the figure 4, an LED navigation light lead-out wire is shown.

Fig. 1-6 are diagrams of an example of an 18-circuit external power supply type LED automatic teaching suona, which is a structural diagram of an 18-circuit LED programming controller. Three + VCC in fig. 1-6 are the binding posts for the common anode (positive common) of the LED lamp on the three terminal terminals (screws) for power positive input and navigation finger (automatic teaching LED lamp). three-GND in the figure is three connecting terminals (screws) for connecting the negative pole of the power supply. In fig. 1-6, there are 18 screws (terminals) below the programming controller, and corresponding notes are printed (or sprayed) on each terminal (the note position corresponding to each terminal can be freely defined by the programmer), and corresponding notes are marked on each navigation line for convenient connection. Above this row of notes is a row of synchronously displayed LED lights. Four circular buttons are arranged above the synchronous display LED lamp, the first left button is a teaching track playing (navigation) deceleration button, and functional marking characters with reduced speed are printed above the buttons; the second left is a teaching track playing (navigation) acceleration button, and functional marking characters of speed + are printed above the button; the third left is a teaching song selection button for automatically teaching musical instruments, the next song can be switched to by pressing once, and function marking characters for selecting songs are printed above the button; the left four are storage buttons, the speed mode selected by the player can be stored by pressing the buttons, the player can use the speed mode for the next time, and stored function marking characters are printed on the buttons. The digital display screen is above four buttons, and the two digit numbers on the left side of the screen show the play speed of the automatic teaching song, and the function label characters of speed are marked on the corresponding digital screen, and the two digit numbers on the right side of the screen show the serial number of the automatic teaching song, and the function label characters of the song are marked on the corresponding digital screen. The display (or nixie tube) of the present invention has no limitation on the number of digits displayed. The power light, error light, and sync light labeled in fig. 1-6 are located at positions corresponding to the upper side of the text, respectively. The SD card labeled in fig. 1-6 is located at a position corresponding to the right side of the text. The programming controller in the figure has eighteen paths, and the invention uses 17 paths in the example. The invention relates to an LED automatic teaching musical instrument (navigation musical instrument) which is suitable for all kinds of musical instruments, specifically, the number of used channels of controllers can be freely increased and decreased according to the difference of the musical instruments and the difference of teaching difficulty coefficients, a navigation lamp (the sentence is described to be suitable for all kinds of musical instruments) which can be arranged on each navigation finger sleeve of the same and different musical instruments, and one, two, three, four, five or six navigation finger sleeves (the sentence is suitable for all kinds of musical instruments), the navigation lamp can be arranged on any finger, and also can be provided with parts such as single spit, double spit, three earth, hold tone, strong tone, vibrato, three-degree vibrato, upper slide tone, lower slide tone, folding tone, beating tone, abdominal tremolo, virtual finger tremor, upper wave tone, lower wave tone and other special fingering and playing skills and small part of the navigation lamp and characters for teaching the note method, and the navigation lamp and the characters are arranged on any clear places (including wrist, fingers, arms, navigators, etc.). All or part of the wiring terminals (wiring terminals) of the controller can be replaced by pins or socket bars, and the method of directly welding the wiring terminals to a circuit board in the controller and directly leading out the wiring terminals can also be adopted. For example, techniques such as slow ventilation and ultra-blowing, etc. can be defined by light colors, or can be directly displayed on the panel by characters or symbols, and these methods can also be used simultaneously, and all other fingering, playing skills, breathing machine skills, notes, playing skills, etc. appearing and not appearing in the present application are included in the display range of the display panel of the present invention. Because of the variety of musical instruments, the difference of teaching methods and teaching difficulty settings, the difference of grades and other factors, the changes of the number of navigation panels and the content (the increase or decrease of the number of panels) are included in the invention.

Fig. 1-7 are diagrams of three embodiments of the framework of the navigation finger cuff, namely the framework part structure diagram of the combined navigation finger cuff. Three a in fig. 1-7 are the bases of three navigation finger cuff frameworks respectively. Three b in fig. 1-7 are the strap insertion and fixation slots on the three navigation finger cuff frames, respectively. Three c in the figures 1-7 are respectively three navigation finger cot framework LED navigation lamps and wire inserting, fixing and packaging holes, and the LED navigation lamps and the welded wires are inserted into preset positions and packaged and fixed by plastic. Three places (surfaces and planes) for pasting the panel and the characters with different colors on the three navigation finger stall frameworks are respectively shown as d in the figures 1-7, and the place for pasting the panel and the characters with different colors in the lower left figures in the figures 1-7 is positioned on the upper surface of the d. The navigation finger stall framework in the figure is made of transparent, light-transmitting and soft silica gel materials. The invention provides a method for manufacturing an intelligent automatic teaching musical instrument by adopting a fingerstall navigation scheme, which already comprises the design of all different fingerstalls, gloves, panels, characters and skeletons with different shapes, different structures, different contents, different materials, different colors, different styles and different styles. The navigation finger stall can be separated or integrated, can be formed by combining various materials, can be made of a single material, and can also be formed in one step. The invention is used for different musical instruments and different teaching requirements, and the musical note panel (navigation panel) made of characters including all the full musical notes in all the tones such as A tone, Bb tone, B tone, C tone, Db tone, D tone, Eb tone, E tone, Gb tone, F tone, G tone, Ab tone and the like, all the upbeat musical notes (such as upbeat semitone and the like) and all the downbeat musical notes (such as accompanying sound and the like) on the navigation panel is included in the invention.

Fig. 1-8 are digital panel structure diagrams pasted on the navigation finger stall framework, namely the panel and the digital symbol structure diagram of the combined navigation finger stall, the digital panel is formed by combining the panel and the digital. Nine squares in the upper left hand picture of fig. 1-8 are panels made of clear, light-transmitting green silicone material. The numbers in the upper right hand picture in fig. 1-8 are made of a transparent, light-transmitting red silica gel material. A green panel is firstly pasted on a transparent navigation finger stall framework, red characters or symbols are pasted on the panel, the structure is made of materials with three colors (or other materials with any one or more colors), and the effect of a single color or two colors is much worse when the structure is used and can be clearly seen no matter whether the structure emits light or not. Seven squares in the bottom right-hand picture of fig. 1-8 are panels made of clear, light-transmissive red silicone material. The numbers in the lower left hand picture of fig. 1-8 are made of a transparent, light-transmitting green silicone material. A red panel is firstly pasted on a transparent navigation finger stall framework, green characters or symbols are pasted on the panel, the structure is made of materials with three colors (or other materials with any one or more colors), and the effect of one or two colors is much worse when the structure is used and can be clearly seen no matter whether the structure emits light or not. The 3D printer adopting a plurality of spray heads is simple and can be manufactured at one time.

Fig. 1-9 are diagrams of an embodiment of a navigation finger cuff, i.e., an overall structural diagram of a combination navigation finger cuff. Four a in fig. 1-9 are respectively the bandage installed on the four navigation finger sleeves, the bandage adopts the existing bandage of thread gluing (sticky hook) type, each automatic teaching musical instrument is provided with the bandage with the length of 1-2 meters (one roll), the bandage can be cut and the length is proper according to the thickness of the individual finger when in use, and the rest bandage is convenient for other people to use and replace. Four b in fig. 1-9 are the panels of different colors and numbers on the panels, respectively, mounted on the four frames of the navigation finger cuffs. One of two surfaces of the binding band is a hair surface (soft surface) and the other is a smooth surface, the soft surface is downwards arranged to wrap the fingers to be relatively warm (opposite) in the cold weather, and the light surface is downwards wrapped the fingers to be relatively cool and breathable (opposite) in the hot weather. The characters and symbols on the navigation finger sleeve comprise navigation lights and characters for teaching special fingering such as single-spit, double-spit, three-native, sustain sound, strong sound, vibrato, three-degree vibrato, upper vibrato, lower vibrato, overlapping sound, beating sound, abdominal vibration sound, virtual finger tremor, upper wave sound and lower wave sound of the traditional Chinese musical instrument, and simultaneously comprise playing techniques, names, characters and musical notes of other musical instruments of various countries in the world, and simultaneously comprise all musical notes including all Arabic numerals, and simultaneously comprise all musical notes and fingering including characters and symbols of various countries in the world. Various high, middle and low tone symbolic words and playing techniques which all musical instruments in all countries of the world can emit, and fingering symbols and navigation panels made of the symbolic words are all included in the invention.

Fig. 1-10 are diagrams of an example embodiment of an automated teaching suona. In the present invention, mention is made of: the suona teaching suona is a simpler and easier method for remembering, according to the same or different musical instruments and according to the same or different teaching contents and difficulty requirements, an actual teaching program can also be set into a method that the fingers needing to be lifted are fully lighted (or fully extinguished), the fingers needing to hold the musical instruments to prevent the musical instruments from falling off are extinguished (or lighted), and any design of setting and increasing or decreasing the quantity and the type of the navigation function light is a variable manual regulation and is included in the invention. The automatic teaching musical instrument is suitable for various fingering and each playing skill of various musical instruments, and the used navigation path number, the scale number, the playing skill sign symbol and the light number are different according to different teaching difficulties of navigation musical instruments. The invention can synchronously run with the video navigator of the inventor to manufacture an intelligent automatic teaching musical instrument which not only has fingerstall navigation but also can synchronously watch music scores (music scores) and playing progress.

Fig. 1-11 are three icons of LED programming software and a grid animation software turn-on diagram, with three icons of LED programming software on the left and a grid animation software turn-on diagram on the right in fig. 1-11. FIGS. 1-12 are graphs of the number of song notes required for the LED programming software settings. Fig. 1-13 are diagrams showing the LED programming software selecting the currently lighted musical note and the engineering file making software opening, the upper diagram in fig. 1-13 is the diagram showing the LED programming software selecting the currently lighted musical note, and the lower diagram is the engineering file making software opening. Description of the programming software used by the LED programming controller: the inventors used the following from the company Kawatsuma, Japan: the methods used by the NeonPay 2006 edition and the NeonPay 2013 are completely consistent with the effect, and the methods used by the NeonPay 2006 edition and the NeonPay 2013 can be used for producing grid computer animation. NeonPayl 2006 edition and NeonPayl 2013 of the Japan Chuntan company are common LED color lamp programming controller grid computer animation production software, the produced computer animation is imported through the NeonPayl 2006 or NeonPayl 2013 and LedMagice2018 engineering output software of the company, and the produced computer animation is played, recorded and generated into an engineering output file which can be copied into a memory card for driving an LED lamp of the LED programming controller. Because the playing sequence of music notes is not regularly found like the circulation of the traditional horse race lamp (running light, light bar and the like), the software is called to program the music, so that the music cannot be programmed by using shortcut keys, a note and the accurate time length of playing each note are required to be input, previews can be played while inputting, the wrong note beats are deleted in time after errors are found, the correct notes and the playing time length are input again until the whole music is edited, and the files are stored after the previews are played repeatedly without errors. The stored files are processed into engineering files through an engineering output program, the engineering files are successfully manufactured by storing the navigation tracks in the SD card, and the playing time length of each note and the time length of light-off between two notes can be accurately input through a beat doubling function. The current purchase or customization of the LED programming controller is that a seller (manufacturer) is responsible for freely providing software matched with the controller, and the related detailed use can be consulted with professional engineers of the manufacturer or the inventor of the invention.

The concrete use method of the intelligent automatic teaching musical instrument is illustrated; taking the suona as an example, firstly, according to the note responsible for each finger in the figure 1-2, taking the navigation finger sleeve to pick up the instrument and press each sound hole of the instrument according to the fingering position of the figure 1-1, observing whether the note printed on each navigation finger sleeve can be easily seen, adjusting the note of the navigation finger sleeve which is not good to be seen to an ideal watching position which is not sheltered from each other, at the moment, opening a power switch of a navigator, selecting the song to be learned, adjusting to a proper playing speed, having a delay programming design of about 10 seconds before playing, bringing convenience for people to take the instrument again, starting playing after the delay time, and at the moment, needing to hold the suona by two hands according to the correct fingering method of the suona to prepare for playing. When the note panel is lit with a slow blow (defined as a green light) note, the note is played in a slow blow manner. When the note panel is lighted up, a superblow (defined as red light) note is played according to the superblow method. When a note is played, a short time that all lights are turned off is provided, which indicates that the note playing is finished and the playing is stopped, and waits for the next note to appear and start playing the next note. When a light is on each finger navigation glove, the finger and all fingers pressing the sound hole in front of the finger are lifted regardless of a green light or a red light, namely the correct fingering method for each tone, and a corresponding playing method is adopted according to different light colors; when the note panel is lighted up and is a soft blow tubular (bass swoosh, defined as a yellow light) lamp, the note is played according to a soft blow method, and all fingers pressing the sound hole can not be lifted when the tubular note is played. When the ventilation v-shaped lamp is turned on, the playing needs to be stopped for ventilation. When all the navigation lights are not turned off between the two notes, the fact that one note in playing is directly converted to the next note represents a continuous sound, and the direct conversion fingering is not stopped when the middle of playing the breath to play the next musical scale continuously.

Each intelligent automatic teaching musical instrument is internally provided with a certain number of navigation (teaching) songs, and a user can download the music to the enterprise website when needing to increase the music (the navigation songs of one musical instrument generally do not exceed twenty, the music is not required to be downloaded and increased at all, because a person who uses a navigation musical instrument (intelligent automatic teaching musical instrument) or a musical instrument navigator (intelligent automatic teaching instrument) is proficiently remembering various fingering and playing skills as long as he can proficiently play a certain number of navigation songs, now, the navigation instrument and the instrument navigator are not needed any more, the music score can be played by oneself completely, at the moment, the intelligent automatic teaching instrument is used to help the user to establish the decision for continuously and autonomously learning the playing skill with higher difficulty.

The LED lamp can be controlled by an existing LED programming controller on the market, and can also be controlled by a control storage device specially customized by an electronic factory according to the characteristics of musical instruments of manufacturers. The LED lamp programming controllers in the market are various and can control a plurality of ways, dozens of ways and hundreds of ways, and the programming controllers which can control more than 8000 LED lamps are all available (such as the LED programming controllers for controlling large-scale LED display screens, various lamp belts, lamp chains and controllers thereof, and the like). The LED programming controller on the market generally can control dozens of LED lamps simultaneously in each way, only one LED lamp needs to be controlled in each way when the LED programming controller is actually used on a musical instrument, and the LED programming controller on the market is used for some materials and the size is slightly larger. The inventor proposes that the authorized musical instrument factory entrusts the relevant electronic manufacturer to design and produce a matched programmable control system according to the structural characteristics of the musical instrument and the number of ways to be controlled. The suona in the application example of the invention can play 16 different notes (tones), and a 16-path LED lamp programming, storing and controlling system is needed, and if a V-shaped ventilation reminding function is added, 17 paths are needed. The number of the specific programming control system is determined according to the number of the actual paths of each musical instrument to be controlled by referring to the teaching difficulty requirement, and a professional manufacturer and a design unit are entrusted to design and manufacture the LED programming, storing and controlling system. The LED navigation light can be round or square or other shapes. The navigation light can be an LED light, and any other light capable of emitting light by electrifying energy can be used. For navigation tracks used by various navigation instruments and various instrument navigators, a manufacturing team is required to be built by a manufacturing enterprise, and related enterprises can be entrusted to continuously manufacture the navigation tracks according to user requirements.

The addition or modification of the music instrument navigation music track can be designed into a mode of completing operations such as programming, deleting, adding music track and the like on the navigation music instrument; the system can also be designed to be connected with electronic equipment such as a computer and a mobile phone through a wire or Bluetooth to finish the operation modes such as editing, programming, deleting, adding songs and the like; the inventor believes that the invention is designed into a navigator and a navigation musical instrument (including both detachable and non-detachable) with a memory card, and the addition, editing and deletion of songs for the memory card of the navigation musical instrument and the LED navigator through a computer or other electronic equipment are the simplest and the most convenient. The LED lamp-controlled navigator and the LED navigation musical instrument are designed into a structure with a detachable storage card, so that a user can go to a website of a manufacturer of the musical instrument at any time to download favorite navigation songs, and can add and delete the songs on the storage card of the navigator through electronic equipment such as a computer. The suona horn can be used in many other instruments, such as sheng, xiao, flute, clarinet, oboe, bassoon, trumpet, round, bawu, trombone, flute, saxophone, cucurbit flute, torch, bawu, Xun le, etc.

The invention comprises various LED navigation instruments and various LED instrument navigators, and as the types of instruments are numerous and complicated, the inventor does not discuss in the application document one by one, and the treatment of the detailed problems of each instrument is a better part for professionals in various industries than the inventor, and the treatment is not further described here. The invention can be specifically made into a form only having standard playing speed for each music piece navigation playing speed, and also can be made into a structural form with adjustable playing speed, so that the invention is more suitable for people who use the musical instrument for the first time, and the speed adjustment is relative to LED navigation, namely the speed of the LED lamps which are alternately lighted and the time length of each lamp which is lighted (the lighted time length is the playing time length of each note).

The storage card of the LED lamp navigation musical instrument and the LED lamp musical instrument navigator stores a control trigger navigation signal (program) of each note of each music piece, and specifically depends on the characteristics of different musical instruments, each LED lamp is connected with a pin on a corresponding controller through a wire, and the controller which is designed autonomously can simultaneously comprise a power supply assembly, a control assembly pole switch, a screen display, a function key, a digital key and the like, so that the LED lamp navigation musical instrument and the LED lamp musical instrument navigator are greatly convenient for users to use. The method comprises the steps that specific paths of LED programming controllers are needed for each musical instrument, an instrument factory can find electronic manufacturers at the upstream of an industrial chain according to actual needs, specific design requirements are provided according to the characteristics of each musical instrument, electronic component manufacturers of enterprises at the upstream of the industrial chain are responsible for designing and producing electronic hardware to provide an installation circuit diagram, welding, assembling and debugging are carried out according to requirements, manufacturing of LED navigation music can call relevant professionals to establish a manufacturing team of the LED navigation music, and external relevant technical team manufacturing can be found.

The intelligent automatic teaching musical instrument note panel pattern can be made by various expression forms such as characters, symbols, numbered musical notation, numbered staff and the like. The high, middle and low tones can be directly represented by numbered notation of high, middle and low tones, also can be directly represented by staff and staff numbers, and also can be represented by characters of various countries. If the V-shaped ventilation prompting lamp is omitted, the time for completely turning off the navigation fingering indicating lamp is only required to be prolonged in a place needing ventilation. What do it is not seen when playing a musical instrument like Xun-Xun music? The method is simple, only a mirror needs to be placed in front of a player, navigation instructions in the mirror are easier to see than fingers of the player, and the best solution is that the video navigator which is firstly discovered by the inventor is better in effect.

The customization of the programming controller needs to find out related electronic manufacturers to design and produce the hardware part of the matched navigation system according to the characteristics of each musical instrument and provide an installation drawing, and the navigation tracks of the software part need to be manufactured by the enterprise self-organization team or entrusted to the processing of related enterprises. The inside or the outside of the navigation musical instrument and the instrument navigator can be provided with a rechargeable or replaceable battery or an external power supply; meanwhile, the invention also has the function of directly using the 220V alternating current power supply, and the use of the 220V power supply suggests that the power supply circuit is safer by adopting an isolation transformer and a protection device. Meanwhile, the invention can also adopt solar power generation for power supply or charging, also can adopt temperature difference power generation and the like for charging or power supply, and also can adopt pressure power generation for power supply or charging. The battery used in the present invention includes lead-acid batteries, lithium batteries, graphene batteries, fuel cells, general batteries, and the like.

It is known from technical engineers in the art that our navigator can be made handset-sized according to the state of the art. If the module is not customized, the module may be slightly larger, but the use is not affected. The navigator of the intelligent automatic teaching musical instrument can be completely made by directly using the LED programming controller sold in the market, the connection with the navigation finger sleeve is required to be correctly connected and connected according to the circuit diagram of the product by directly using the navigator made by the LED programming controller sold in the market, and the manufacturer for producing the material product can be found for customizing and processing the navigation finger sleeve plan by using what material, and can also be directly made by using a 3D printer. In addition, the navigator can also entrust the design and manufacture of upstream electronic enterprises of the industrial chain, namely the design and manufacture is only a simple splicing combination of a functional module and a very small amount of peripheral electronic elements.

When the navigation light of the invention is all in one color, the whole or part of the notes and other marks on the navigation panel and the panel can be directly made into colors with different processing procedures or the same color, the color of the sprayed color or the color of the material can be realized, and the method of pasting the notes and other marks can also be adopted. The luminous LED lamp of the navigation panel is arranged in the finger sleeve or the finger sleeve navigation panel, a hole for arranging the LED lamp can be reserved on the side surface of the finger sleeve when the finger sleeve and the panel are produced, the LED lamp needs to be electrified and tested before being arranged, the LED lamp can be filled and fixed by plastic silica gel and the like after being arranged, and the LED lamp is normally electrified and tested in a book after being fixed, so that a qualified product is obtained and can be sold. The musical notes and symbols on the navigation finger sleeve and the musical notes and symbols on the navigation panel can also be pasted (or welded, ultrasonic welded and the like) independently after the finger sleeve is produced, and only the navigation lamp with a lead is added in the middle. Certainly, the LED navigation lamp can be directly placed into a 3D printer or an injection molding machine to be directly made into a navigation finger sleeve under the condition of correction and no damage. The thickness of the finger sleeve material is moderate, so that the finger sleeve material can be worn on hands of different people with different sizes without looseness, but is not too tight, and therefore, the finger sleeve material has a proper width and thickness. In addition, the finger stall of the invention can also be made into a finger stall with adjustable circumference, such as a finger stall with adjustable tightness by ratchet, a finger stall with adjustable tightness by matching piles (columns) with rows of holes, a watch band structure and the like, which are seen everywhere in real life and are not further described here.

1. An intelligent automatic teaching musical instrument is composed of hardware and programming songs; the hardware comprises musical instruments and navigators; the navigator is mainly characterized by comprising a navigation finger sleeve arranged on a finger, navigation notes on the finger sleeve and navigation light, and the navigation light is controlled by programming to realize the intelligent accurate automatic teaching purpose of playing music.

2. The intelligent automatic teaching musical instrument according to claim 1, wherein: the navigation fingerstall is made into a size adjustable in tightness or non-adjustable; the navigation panel is positioned on the circumferential surface of the finger sleeve or above the circumferential surface of the finger sleeve, the navigation panel can move leftwards or rightwards, and the notes on the panel can be arranged leftwards and rightwards or upwards and downwards; all the colors of the navigation lights are the same or different; the colors of characters, symbols and musical notes of the navigation panel are completely the same or different; the navigation finger sleeve is fixed at one joint or more than one joint on the finger and is made into a structure the same as or similar to that of the glove; the navigation finger sleeve and the navigation glove are made into a structure which is air-permeable or air-impermeable.

3. The intelligent automatic teaching musical instrument according to claim 1, wherein: the lamp used for the light navigation is an LED lamp, and the control navigation of the LED light is realized through an LED programming control system.

4. The intelligent automatic teaching musical instrument according to claim 1, wherein: the playing speed of the light navigation song is adjustable or not.

5. The intelligent automatic teaching musical instrument according to claim 1, wherein: a structure is made that contains a removable or non-removable memory card.

6. The intelligent automatic teaching musical instrument according to claim 1, wherein: a structure with bluetooth functionality is made.

7. The intelligent automatic teaching musical instrument according to claim 1, wherein: the structure is made to be connected with electronic products such as computers, mobile phones and the like through wires.

8. The intelligent automatic teaching musical instrument according to claim 1, wherein: different purpose LED lamps may be defined to be the same or different colors.

9. The intelligent automatic teaching musical instrument according to claim 1, wherein: the LED navigation can be used simultaneously with video navigation or only with LED navigation, the navigator has a screen display or does not have a screen display, and the screen of the navigator is a liquid crystal screen, a nixie tube display screen, a kinescope screen, a dot matrix display screen and a projection screen.

The LED navigation light of the invention leads the musical notes to alternately illuminate through the LED lamps according to the sequence and the time length of each musical note in each music piece, the sequence of the musical notes passes through the LED programming controller, the playing sequence and the playing time length of each musical note. Therefore, the invention can be widely applied to instruments such as sheng, vertical bamboo flute, pipe, clarinet, oboe, bassoon, trumpet, trombone, flute, piccolo, saxophone, bawu, electroblowpipe and the like. For users who use the navigation musical instruments and the musical instrument navigator for the first time, the inventor proposes that the better and faster progress can be obtained only by starting (or slowing down) the playing of music with a slow rhythm and gradually, and finally, the navigation function can be completely omitted. Various navigation instruments and instrument navigators allow a person without any musical basis to easily learn the performance of an instrument in an unknowingly pleasurable game.