KR20110101812A - Electronic violin trainer - Google Patents

Abstract

The present invention relates to a portable electronic violin exerciser for practicing violin fingering and swinging, which is the most difficult part when starting a violin.
In the present invention, it is difficult for the first learner of the violin to press the correct scale position using a finger on the four lines on the fingerboard of the violin, and it is difficult to confirm in real time whether the correct note is pressed. For example, a musical instrument that is similar to a violin has a vertical column that protrudes beneath the string, and is clearly distinguished between the cell and the cell. The violin does not have a vertical column to distinguish the scales. Therefore, it is difficult for the practitioner to distinguish between the normal position and the sound only when the finger presses the desired position of the string. In order to solve the inconvenience, the input module is mounted at each fingering position of the normal scale, so that the exerciser can increase the practice effect while checking in real time with sound and eyes at a predetermined position.
According to the present invention, a fingering of a violin is made by using 28 input modules or switches 1a to 4g and a slide detection input module or switch 19 to 22 on a violin board 11 at the same position as the actual violin specification. Normalized position and sliding position.
The present invention is to drive the practice program of fingering and the bow built in the exerciser, it is possible to communicate with the exerciser visually and aurally in the electronic display module (6) to make fun and fun to practice the violin.
The present invention was able to practice easily and fun while checking with the eyes and ears whether the fingering position and the slide is correct in real time by running the violin practice program in the display module (6) to the exerciser.
The present invention has the position and input module in the shape of the string 14 to 17 of the fingering plate 11 and the shape of the slide module 5 is the same as the height and angle of the actual violin string playing the actual violin in the exerciser It also maximizes the feeling of movement, and standardizes the movement path through which the bow intersects with the bow and maintains constant movement of the violin string.
The present invention should be changed in size each time the body of the exerciser changes. In this case, you will have to purchase a new exerciser each time. In order to solve this problem, the size of the exerciser was changed to match the body size of the exerciser, thereby reducing the economic loss caused by repurchasing the exerciser.
The present invention includes a portable folding bow to the exerciser to avoid having to carry a bulky conventional violin bow.

Description

Electronic Violin Trainer {Electronic Violin Trainer}

The present invention is to practice the violin fingering (Fingering) and the swinging (Bowing) practice applied technology is a speaker through a control system to receive the signal of the input module that standardizes the violin fingering position and the sliding position to output audio and video And to the display module (6) to the sound and image processing and to produce an application program that can be effective practice in the learning program.

In the conventional violin practice, fingering and gliding were practiced using a booklet or other computer program to learn fingering and gliding. These methods are methods that can be performed with a real violin.

For those who are new to violin and those who want to improve their skills, their fingering and running skills should be steadily improved. But to improve your skills, you have to invest a lot of time and practice. The reason is that there is no fingering point on the strings of the violin, so it is difficult to practice while checking the correct fingering point by the learner's own ability. It is also more difficult to get a bow. Therefore, it takes a lot of time to learn the skill of fingering and bowing. We try to improve this difficulty.

The fingering plate 11 including 28 input modules (1a to 4g) located at the same position as the actual musical scale position of the actual violin by the standardization of the fingering position, which was difficult to check during the violin practice, and four input modules for detecting the slides ( Using the slide module 5, including 14 to 17), the exerciser visually and acoustically checks the fingering and the slide information.

You can practice anywhere, anytime, without harming others.

By reducing the duration of the violin lessons, you can reduce the cost of expensive lessons.

The size can be adjusted according to the body type of the exerciser, so there is no need for several violins. In learning the violin, it becomes a medium that anyone can easily access and a driving force for popularization.

1 is a perspective view of the overall shape of the present invention
2 is a further perspective view of the overall shape of the present invention;
Figure 3 is a detailed view of the fingering plate of the present invention
Figure 4 is a detailed view of the slide module of the present invention

1 is a perspective view of the present invention and has only a minimal shape for posing the actual violin. The part where the user's body directly or indirectly touches the violin to prepare the posture of the violin is the support plate body 10, the shoulder rest and the jaw rest 1, and the slide module 5. If the three portions 10, 1 and 5 are not in the same position as the actual violin, the correct violin position cannot be obtained. Therefore, the positions of the three places 10, 1, 5 of the exerciser are made the same as the actual violin. In this way, the three places in this exerciser were in direct and indirect contact with the learner, allowing them to practice with the same posture as playing a real violin.

FIG. 3 illustrates the fingering plate body 10 of the present invention in detail, and includes 28 input modules 1a to 4g and strings 14 to 17 on the fingering plate. The 28 input modules 1a to 4g listed on the fingerboard 11 standardize the positions of the scales which are not visible to the strings of the actual violin, thereby placing the positions of the input modules 1a to 4g in the same manner. 17), the parallel angle and the vertical angle of the upper surface of the fingering plate 11 of the actual violin were the same.

28 input modules on the support plate 11 have their own sounds, and when the input module 1a detects a sole sound, when the input module 1b detects a sound, the input module 1c When it detects, a sound is heard, when the input module 1d detects a sound, when the input module 1e detects a sound, when the input module 1f detects a sound, an input module When (1g) detects a sound, when the input module (2a) detects a sound level, when the input module (2b) detects a sound, when the input module (2c) detects a sound When the input module 2d detects a sound, when the input module 2e detects a sound, when the input module 2f detects a sound and when the input module 2g detects Sound is heard, sound is heard when the input module 3a detects, sound is sounded when the input module 3b is detected, sound is sounded when the input module 3c is detected, and input module 3d is detected. This sense If the input module (3e) detects the sound, when the input module (3f) detects the sound level, if the input module (3g) detects the sound, the input module ( When 4a) detects a sound, when the input module 4b detects a sound, when the input module 4c detects a sound, when the input module 4d detects a sound, When the input module (4e) detects a sound, when the input module (4f) detects a sound, and when the input module (4g) detects a sound.

FIG. 4 shows the slide module 5 of the present invention in detail and includes a slide input module 19 to 22 serving as a string. The four input modules 19 to 22 listed in the slide input modules 19 to 22 have the same parallel angle and vertical angle with respect to the actual swing position of the violin. The input modules 19 to 22 included in the slide module 5 are sounded when the input module 19 is detected through the speaker 11 or the earphone, and when the input module 20 is detected, a sound is generated. When the input module 21 detects, the sound is played, and when the input module 22 detects, the sound is generated. The display module 6 is foldable as shown in FIG. 4, and a screen on which a practice program for systematically practicing fingering and bowing through the display module 6 is displayed. The exerciser of the present invention was able to change the size according to the body type of the exerciser. The violin comes in four different sizes: 1 ", 3/4", 1/2 "and 1/4". The exerciser can move the jaw and shoulder restraint (1) tied to the shaft (2) by moving the position in the variable size module (23) to a position that fits the body type of the exerciser shoulder and The four positions of the jaw rest 1 are standardized so that the practitioner can adjust it to his body shape.

1: shoulder and bib 3: speaker
5: drawing module 6: display module
7: slide body 8: support plate body rotation axis
10: supporting plate body 11: fingering board (Finger Board)
23: variable size module

Claims (8)

       In the electronic violin exerciser which can practice violin fingering and sliding, 28 basic scale positions fingered on the strings of the actual violin and 28 input modules (1a to 4g) located at the same position of the exerciser; An electronic violin exerciser comprising (5).        In the electronic violin exerciser that can practice violin fingering and swinging, the fingering position and the swinging position of the actual violin and the shoulder and jaw support position are the same as those of the actual violin. Violin Exerciser How To Raise The Way The method of claim 1
Electronic violin exerciser further comprising a display module (6) In claim 1
Electronic Violin Exerciser further including shoulder rest and bib support (1) The method of claim 1
The 28 input modules 1a to 4g sound when the input module 1a is detected through the speaker 6 or earphones, and when the input module 1b detects the sound, the input module 1c is input. If this is detected, a sound is generated, if an input module 1d is detected, a sound is heard, if an input module 1e is detected, a sound is sounded, if an input module 1f is detected, a sound is sounded, and an input is made. When the module (1g) detects a sound, when the input module (2a) detects a sound, when the input module (2b) detects a sound, when the input module (2c) detects a sound When the input module 2d detects a sound, when the input module 2e detects a brush sound, when the input module 2f detects a sound, the input module 2g detects the sound. If the input module (3a) detects the sound, when the input module (3b) detects the sound, when the input module (3c) detects the sound, the input module (3d) ) Detects When the input module 3e detects a sound, a sound is played.When the input module 3f detects a sound, a sound is generated.When the input module 3g detects a sound, a sound is heard. When it detects, a sound is generated, when the input module 4b detects a sound, when the input module 4c detects a brush sound, when the input module 4d detects a sound, Electronic violin exerciser consisting of a sound when (4e) detects, a sound when the input module (4f) detects, and a sound when the input module (4g) detects. The method of claim 1
The input modules 19 to 22 are sounded when the input module 19 is detected through the speaker 6 or the earphone in the main body, and when the input module 20 is detected, the input module 21 is sounded. An electric violin exerciser consisting of a sound when detected and a brush sound when the input module 22 detects it. In claim 1
Electronic violin exerciser further comprises a high position practice input module for advanced users in the exerciser. The method according to claim 1 or 5
Electronic violin exerciser consisting of the input module (1a ~ 4g), (19 ~ 22) of the exerciser is one of a sensor or a switch.

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