Smart guitar
By designing the buttons on the smart guitar's neck in two rows, with no more than five buttons in each row, users only need to extend and retract four fingers to cover all the buttons, solving the fatigue problem caused by frequent hand movements and improving the user experience.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SHENZHEN SUIDAN TECHNOLOGY CO LTD
- Filing Date
- 2025-05-28
- Publication Date
- 2026-06-30
AI Technical Summary
Existing smart guitars have excessively long chord keys distributed along the neck, causing users to move their hands frequently while playing, resulting in fatigue in the shoulders, elbows, and other areas, and a poor user experience.
The chord keys on the neck are arranged in two rows side by side, with no more than 5 keys in each row and no more than 10 keys in total. The user holds the neck with one hand and supports the body with the other hand, and can cover all the keys by extending and retracting four fingers, reducing the need for hand movement.
It significantly reduces the amount of hand movement, reduces fatigue in the shoulders and elbows, improves the user's playing experience and feel, and makes playing easier.
Smart Images

Figure CN224437159U_ABST
Abstract
Description
Technical Field
[0001] This application relates to the field of electronic musical instrument technology, and in particular to a smart guitar. Background Technology
[0002] Traditional guitars require complex fingering techniques, which can easily cause finger pain and injury. To address this, the easy-to-use smart guitar was developed. Unlike traditional guitars that rely on physical vibrations for sound production, smart guitars use electronic technology. The neck of the smart guitar has chord buttons for triggering chords; users can press these buttons to replace the traditional fingering, effectively solving the problems of finger pain and injury.
[0003] However, existing smart guitars have chord keys arranged in a row along the neck, with excessively large distances between the first and last chord keys. When playing, users need to constantly move their hands back and forth along the neck, resulting in a high level of physical exertion. After playing for a while, this can easily cause fatigue in the shoulders and elbows, leading to a poor user experience. Utility Model Content
[0004] This application provides a smart guitar designed to reduce hand movements during playing, thereby reducing the amount of physical exertion and improving user experience.
[0005] To achieve the above objectives, the present application proposes a smart guitar, which includes a body and a neck. The front of the neck has at least two rows of keys arranged side by side. Each row of keys includes multiple chord keys arranged along the length of the neck. The number of chord keys in each row is less than or equal to 5, and the total number of chord keys on the front of the neck is less than or equal to 10.
[0006] In some embodiments, the at least two rows of keys include a first row of keys and a second row of keys; the first row of keys has 4 chord keys and the second row of keys has 3 chord keys; or, the first row of keys has 5 chord keys and the second row of keys has 2 chord keys.
[0007] In some embodiments, the first row of keys is located between the second row of keys and the underside of the neck.
[0008] In some embodiments, the distance between the first and last ends of each row of buttons is less than or equal to 120mm; and / or,
[0009] The dimension of the chord key along the length of the neck is greater than or equal to 14 mm and less than or equal to 20 mm; and / or,
[0010] Each of the chord keys is offset from the chord keys in the adjacent row of keys; and / or,
[0011] The upper side of the neck is provided with chord indicator lights corresponding to the chord keys; and / or,
[0012] The neck is equipped with a key circuit board; and / or,
[0013] The back of the instrument body is provided with at least two spaced-apart strap hooks; and / or,
[0014] The dimensions of the smart guitar along the length of the neck are between 250mm and 450mm.
[0015] In some embodiments, the back of the neck is provided with major and / or minor keys, which are located between the chord keys and the end of the neck away from the body of the instrument.
[0016] In some embodiments, the back of the instrument neck is provided with the major key and the minor key; the major key and the minor key are arranged sequentially along the length of the instrument neck, and / or, the upper side of the instrument neck is provided with a major key indicator light corresponding to the major key and a minor key indicator light corresponding to the minor key.
[0017] In some embodiments, the smart guitar further includes a tone control element disposed at one end of the guitar body near the neck, and / or disposed adjacent to the upper side of the guitar body.
[0018] In some embodiments, the tone adjustment element is a tone knob, and the outer wall of the tone knob is provided with a plurality of tone marks spaced circumferentially along the tone knob; and / or,
[0019] The smart guitar also includes a volume control, which is located at the end of the guitar body away from the neck.
[0020] In some embodiments, the body of the instrument includes a sound cavity assembly, a pick assembly, a battery module, and a main board. The sound cavity assembly, the pick assembly, and the battery module are all electrically connected to the main board. The front of the instrument has a pick window corresponding to the position of the pick assembly. The pick assembly includes one or more picks extending from the pick window to the outside of the instrument. The front of the instrument has a sound outlet area corresponding to the sound cavity assembly.
[0021] In some embodiments, the acoustic cavity assembly is located above the paddle assembly, and the battery module is located below the paddle assembly; and / or,
[0022] The sound chamber assembly, the plectrum assembly, and the battery module are all located between the mainboard and the neck; and / or,
[0023] The sound chamber assembly includes a horn and a passive radiator, the passive radiator being located between the horn and the neck, and a vent hole being provided on the back of the instrument body.
[0024] The technical solution for the smart guitar in this application involves distributing the chord keys on the front of the neck in at least two rows arranged side-by-side. Each row includes multiple chord keys arranged along the length of the neck, with no more than five chord keys in each row and a total of no more than ten chord keys on the front of the neck. Thus, when playing the smart guitar, the user holds the neck with one hand and supports the body with the other, placing four fingers of the hand holding the neck on the various chord keys in one row. By simply extending and retracting these four fingers, all the chord keys on the front of the neck can be pressed, eliminating the need for the hand to move back and forth along the neck. This significantly reduces hand movement during playing, greatly reducing user fatigue and making playing easier, thus improving the user experience. Attached Figure Description
[0025] Figure 1 This is a front structural diagram of an embodiment of the smart guitar of this application;
[0026] Figure 2 This is a top view of one embodiment of the smart guitar of this application;
[0027] Figure 3 This is a schematic diagram of the rear structure of a smart guitar according to one embodiment of the present application;
[0028] Figure 4 This is a schematic diagram of the internal structure of an embodiment of the smart guitar of this application. Detailed Implementation
[0029] The technical solutions of the embodiments of this application will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only a part of the embodiments of this application, and not all of the embodiments. Based on the embodiments of this application, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the scope of protection of this application.
[0030] It should be noted that all directional indicators (such as up, down, left, right, front, back, etc.) in the embodiments of this application are only used to explain the relative positional relationship and movement of each component in a certain specific posture (as shown in the figure). If the specific posture changes, the directional indicator will also change accordingly.
[0031] It should also be noted that when a component is described as "fixed to" or "set on" another component, it can be directly on the other component or there may be an intervening component present. When a component is described as "connected to" another component, it can be directly connected to the other component or there may be an intervening component present.
[0032] Furthermore, the use of terms such as "first" and "second" in this application is for descriptive purposes only and should not be construed as indicating or implying their relative importance or implicitly specifying the number of technical features indicated. Therefore, a feature defined as "first" or "second" may explicitly or implicitly include at least one of that feature. Additionally, the technical solutions of the various embodiments can be combined with each other, but only on the basis of being achievable by those skilled in the art. When the combination of technical solutions is contradictory or impossible to implement, such a combination of technical solutions should be considered non-existent and not within the scope of protection claimed in this application.
[0033] Because playing traditional guitars requires complex fingering techniques, which can easily cause finger pain and injury, smart guitars, which are easy to operate, were developed. Smart guitars do not rely on the physical vibrations of traditional guitars to produce sound; instead, they use electronic technology. The neck of a smart guitar has chord keys for triggering chords. Users press these keys to replace the fingering operations of traditional guitars, effectively solving the problems of finger pain and injury. However, existing smart guitars typically have chord keys arranged in a row along the neck, with a large distance between the first and last keys. When playing, the user's hand needs to constantly move back and forth along the neck to press different chord keys, resulting in significant hand strain and fatigue in the shoulders and elbows after a period of playing, leading to a poor user experience.
[0034] To address the aforementioned issues, this application proposes a novel smart guitar solution that eliminates the need for the hand pressing chords to move along the neck, significantly reducing hand movement and preventing shoulder and elbow fatigue during extended playing sessions, thus greatly enhancing the user experience.
[0035] Reference Figures 1 to 4 In this embodiment, the smart guitar includes a body 20 and a neck 10. The front of the neck 10 has at least two rows of keys arranged side-by-side. Each row includes multiple chord keys 11 (i.e., at least two chord keys 11) arranged along the length L of the neck 10. The number of chord keys 11 in each row is less than or equal to five; and the total number of chord keys 11 on the front of the neck 10 is less than or equal to ten. Each chord key 11 corresponds to the triggering of a chord tone.
[0036] In this embodiment, the arrangement of the chord keys 11 on the front of the neck 10 can be as follows:
[0037] 1. The front of the neck 10 has two rows of keys arranged side by side. Each row of keys includes 5 chord keys 11; or, each row of keys includes 4 chord keys 11; or, one row of keys includes 5 chord keys 11 and the other row of keys includes 4 chord keys 11; or, one row of keys includes 5 chord keys 11 and the other row of keys includes 3 chord keys 11; or, one row of keys includes 4 chord keys 11 and the other row of keys includes 3 chord keys 11.
[0038] 2. The front of the neck 10 has three rows of keys arranged side by side. Each row of keys includes 3 chord keys 11; or, one row of keys includes 4 chord keys 11, and the other two rows of keys each include 3 chord keys 11; or, the number of chord keys 11 in the three rows of keys is 5, 3, and 2 respectively; or, the number of chord keys 11 in the three rows of keys is 4, 3, and 2 respectively; or, the number of chord keys 11 in the three rows of keys is 3, 3, and 2 respectively; or, the number of chord keys 11 in the three rows of keys is 5, 2, and 2 respectively; or, the number of chord keys 11 in the three rows of keys is 4, 2, and 2 respectively; or, the number of chord keys 11 in the three rows of keys is 3, 2, and 2 respectively.
[0039] Of course, there are other layout options that meet the requirements, which will not be listed one by one.
[0040] In this embodiment, by arranging the chord keys 11 on the front of the neck 10 as described above, the user can hold the smart guitar with one hand from the underside of the neck 10, with four fingers positioned on the front of the neck 10, corresponding to the four chord keys 11. The other hand holds the guitar body 20 (for example, the other hand holds the underside of the guitar body 20, with four fingers positioned on the back of the guitar body 20). Thus, when playing the smart guitar, the user only needs to extend and retract the four fingers on the chord keys 11 to cover all the chord keys 11 on each row of keys on the front of the neck 10, without needing to move the hand back and forth along the length L of the neck 10. Therefore, the amount of hand movement during playing is significantly reduced, and even after playing for a long time, it will not cause fatigue to the user's shoulders or elbows, making playing easier and greatly improving the user experience.
[0041] When playing the smart guitar in this embodiment, the user can hold the neck 10 with the left hand and the body 20 with the right hand, or the user can hold the neck 10 with the right hand and the body 20 with the left hand. That is, the smart guitar in this embodiment can be designed to press chords with the left hand or with the right hand, so that users with different usage habits can choose according to their needs.
[0042] The technical solution of the smart guitar in this embodiment involves distributing the chord keys 11 on the front of the neck 10 into at least two rows arranged side by side. Each row includes multiple chord keys 11 arranged along the length L of the neck 10. The number of chord keys 11 in each row does not exceed 5, and the total number of chord keys 11 on the front of the neck 10 does not exceed 10. Thus, when playing the smart guitar, the user holds the neck 10 with one hand and supports or holds the body 20 with the other, placing four fingers of the hand holding the neck 10 on each of the chord keys 11 in a row. By simply extending and retracting these four fingers, all the chord keys 11 on the front of the neck 10 can be pressed, eliminating the need for the hand to move back and forth along the neck 10. This significantly reduces hand movement during playing, thereby greatly reducing user fatigue, making playing easier, and improving the user experience.
[0043] Reference Figure 1 In some embodiments, at least two rows of keys arranged side by side on the front of the neck 10 include a first row of keys 101 and a second row of keys 102; wherein the first row of keys 101 has 4 chord keys 11 and the second row of keys 102 has 3 chord keys 11. In this embodiment, the number of chord keys 11 on the front of the neck 10 is 7 (for example, the 7 chord keys 11 correspond to the 7 chords of a guitar: C, D, E, F, G, A, B). The 7 chord keys 11 are arranged in two rows with 4 and 3 of each number. Thus, when the user plays the smart guitar, he places the 4 fingers of his hand holding the neck 10 on the 4 keys in the first row. By pressing the 4 fingers on the 4 chord keys 11 in the first row, he can play the 4 chord notes respectively. When he needs to play the chord notes corresponding to the 3 chord keys 11 in the second row of keys 102, he can press the 3 chord keys 11 in the second row of keys 102 by moving his fingers slightly towards the second row of keys 102.
[0044] Therefore, in this embodiment, the seven chord keys 11 are arranged in two rows with a quantity of 4 and a quantity of 3 respectively. This allows the user to play without moving their hand holding the handle. They only need to move their fingers between the two rows of keys, which greatly improves the user's playing feel, makes playing easier, and makes it easier to form muscle memory.
[0045] In some other embodiments, the number of chord keys 11 in the first row of keys 101 may be 5, and the number of chord keys 11 in the second row of keys 102 may be 2. In this way, four fingers can be placed on four of the five chord keys 11 in the first row of keys 101, and the remaining chord key 11 can be pressed by a finger on the side, which only requires one finger to extend slightly to the side, without the need for the hand to move along the neck 10.
[0046] Reference Figure 1 In some embodiments, the first row of keys 101 is located between the second row of keys 102 and the lower side of the neck 10, that is, the first row of keys 101 is closer to the lower side of the neck 10. In this way, when the user's hand holds the neck 10 from the bottom, four fingers can be more conveniently placed on four of the chord keys 11 of the first row of keys 101. When it is necessary to press the chord keys 11 of the second row of keys 102, the user only needs to stretch the fingers up slightly, which is more ergonomic.
[0047] In some embodiments, the distance between the beginning and end of each row of keys is less than or equal to 120mm. The normal operating width of four fingers on a hand is typically between 70mm and 120mm. By designing the distance between the beginning and end of each row of keys to not exceed 120mm, it ensures that the user can comfortably press each chord key 11 of the longest row of keys with all four fingers. In some embodiments, the distance between the beginning and end of the longest row of chord keys 11 can be 100mm, 95mm, etc.
[0048] In some embodiments, the dimension of the chord key 11 along the length L of the neck 10 is greater than or equal to 14 mm and less than or equal to 20 mm; for example, it can be 14 mm, 15 mm, 16 mm, 17 mm, 18 mm, 19 mm, or 20 mm. Within this size range, the chord key 11 allows for good finger pressure, improving the feel of the pressing operation.
[0049] Reference Figure 1 In some embodiments, each chord key 11 is staggered from the chord keys 11 in the adjacent row of keys, such as... Figure 1 As shown, each chord key 11 is not directly above or below any other chord key 11 in its adjacent row, similar to the key arrangement in the letter area of a keyboard. By adopting this arrangement where the chord keys 11 of adjacent rows are staggered in the length direction L of the neck 10, the fingers can better press each chord key 11 in the adjacent rows, which is more ergonomic and makes operation more comfortable.
[0050] Reference Figure 2In some embodiments, the upper side 103 of the neck 10 is provided with chord indicator lights 12 corresponding one-to-one with the chord buttons 11. By setting chord indicator lights 12 corresponding one-to-one with the chord buttons 11, the corresponding chord indicator light 12 can be controlled to light up when the chord button 11 is pressed, or the chord indicator light 12 can guide the user to press the corresponding chord button 11, enabling the user to play chords or songs faster and more accurately. Furthermore, in this embodiment, the chord indicator lights 12 are located on the upper side 103 of the neck 10, so that when the user plays the smart guitar, the chord indicator lights 12 are facing upwards towards the user, making it easier for the user to see the lit chord indicator lights 12.
[0051] Reference Figure 4 In some embodiments, the neck 10 is provided with a key circuit board 13. When the chord key 11 or other keys of the neck 10 are pressed, the key circuit board 13 will trigger a corresponding electrical signal, causing the smart guitar to perform a corresponding operation (such as producing a chord sound or other operation) according to the electrical signal of the key circuit board 13. In some embodiments, other types of keys, such as drum keys, rhythm keys, etc., may also be provided on the neck 10.
[0052] Reference Figure 3 In some embodiments, the back of the guitar body 20 is provided with at least two spaced-apart strap hooks 21, which facilitates the user to install a strap for carrying the smart guitar on their back for playing, or simply hanging the smart guitar on the strap when not in use. The at least two strap hooks 21 are respectively distributed on two opposite corners of the back of the guitar body 20, allowing the strap to be better distributed on both sides of the smart guitar's center of gravity.
[0053] In some embodiments, the length L of the neck 10 of the smart guitar is between 250mm and 450mm, for example, 250mm, 280mm, 300mm, 320mm, 350mm, 370mm, 390mm, 400mm, 420mm, or 450mm. This reduces the overall size of the smart guitar, making it more ergonomic. It can be played directly with both hands, unlike traditional guitars or existing smart guitars that require resting on the lap or being carried on a strap, making playing more convenient. Furthermore, the smaller size of the smart guitar makes it easier to store and carry, especially when traveling, easily fitting into a backpack or handbag.
[0054] Reference Figure 3In some embodiments, the back of the neck 10 is provided with major keys 14 and / or minor keys 15, located between the chord keys 11 and the end of the neck 10 away from the body 20. Thus, when the user holds the neck 10 with four fingers on the chord keys 11, the thumb can be placed on the major keys 14 and / or minor keys 15 on the back of the neck 10. This allows for the playing of more chord tones through the combination of the chord keys 11 and the major keys 14 and / or minor keys 15. For example, when there are seven chord keys 11, 21 chord tones can be played (i.e., the seven chord tones when the major key 14 is pressed, the seven chord tones when the minor key 15 is pressed, and the seven chord tones when both the major and minor keys 14 are pressed simultaneously).
[0055] Reference Figure 3 In some embodiments, the back of the neck 10 is provided with both a major key 14 and a minor key 15, and the major key 14 and minor key 15 are arranged sequentially along the length L of the neck 10. This allows the thumb to switch between pressing the major key 14 and the minor key 15 by extending and retracting. Of course, in other embodiments, the major key 14 and the minor key 15 may be arranged in other ways.
[0056] Reference Figure 2 In some embodiments, the upper side 103 of the neck 10 is also provided with a major key indicator light 16 corresponding to the major key button 14 and a minor key indicator light 17 corresponding to the minor key button 15. The major key indicator light 16 and the minor key indicator light 17 allow the user to clearly know the current major or minor key status while playing. Furthermore, the major key indicator light 16 and the minor key indicator light 17 are positioned on the upper side 103 of the neck 10, directly facing the user, making it easier for the user to see the lit major and minor key indicator lights.
[0057] Reference Figure 1 and Figure 2 In some embodiments, the smart guitar also includes a pitch adjustment component 30, which is located at one end of the body 20 near the neck 10, thus facilitating adjustment by the user's hand holding the neck 10 during playing. Furthermore, in some embodiments, the pitch adjustment component 30 may be located on the upper side adjacent to the body 20, further facilitating accurate and quick adjustment to the desired pitch by the hand holding the neck 10.
[0058] In some embodiments, the tone adjustment component 30 is a tone knob. The outer wall of the tone knob is provided with a plurality of tone marks (e.g., A, G, F, etc.) distributed circumferentially along the tone knob. When adjusting the tone knob, the corresponding tone mark can be rotated to the corresponding position according to the required tone, so that the user can adjust to the required tone more quickly and accurately by adjusting the tone knob.
[0059] Reference Figure 1 and Figure 3 In some embodiments, the smart guitar also includes a volume control 40, which is located at the end of the body 20 away from the neck 10. Since the smart guitar usually does not require volume adjustment when playing, positioning the volume control 40 away from the neck 10, or positioning it corresponding to the position of the mainboard 25 of the smart guitar, makes it easier to route and install the volume control 40.
[0060] Reference Figure 4 In some embodiments, the guitar body 20 houses a sound cavity assembly 22, a pick assembly 23, a battery module 24, and a main board 25. The sound cavity assembly 22, pick assembly 23, and battery module 24 are all electrically connected to the main board 25. The front of the guitar body 20 has a pick window 27 corresponding to the position of the pick assembly 23. The pick assembly includes one or more picks 231 extending from the pick window 27 to the outside of the guitar body 20 (two picks 231 are shown as an example in the figure). The front of the guitar body 20 has a sound outlet area 26 corresponding to the sound cavity assembly 22. The sound played by the smart guitar is emitted by the sound cavity assembly 22 and transmitted to the outside of the guitar body 20 through the sound outlet area 26. The battery module 24 provides power to the entire smart guitar, supplying power to the main board 25, pick assembly 23, sound cavity assembly 22, and all other electrical components. The battery module 24 can be a lithium battery or other types of batteries.
[0061] When playing the smart guitar, the user presses the chord key 11 with one hand and plucks the pick 231 of the pick assembly 23 that extends outside the guitar body 20 with the other hand, thereby producing the chord tone corresponding to the pressed chord key 11. Different plucking speeds of the pick 231 can produce chord tones of different magnitudes or different rhythms, etc.
[0062] Reference Figure 4 In some embodiments, the sound cavity assembly 22 is located above the pick assembly 23, and the battery module 24 is located below the pick assembly 23; this layout makes the weight distribution of the smart guitar more even. Furthermore, in some embodiments, the sound cavity assembly 22, the pick assembly 23, and the battery module 24 are all located between the main board 25 and the neck 10, thus making the weight distribution of the guitar body 20 even more even.
[0063] Reference Figure 4In some embodiments, the acoustic cavity assembly 22 includes a horn 221 and a passive radiator 222. The passive radiator 222 is located between the horn 221 and the neck 10. The back of the guitar body 20 is provided with a vent 28 for releasing air when the passive radiator 222 vibrates. The use of the passive radiator 222 greatly increases the low-frequency effect of the smart guitar, making the low-frequency effect of the smart guitar better.
[0064] Based on the above layout design, the neck is relatively lightweight, so there is no feeling of weight when holding the neck and playing, allowing for more flexible finger dexterity. Furthermore, this layout design places the center of gravity of the entire machine in the middle of the smart guitar, distributing the weight evenly between the user's hands. Unlike traditional guitars or existing smart guitars, there's no need to carry the guitar with a strap or place it on your lap; this makes playing the smart guitar more convenient and flexible, allowing for easy playing whether standing, lying down, sitting, or in any other posture.
[0065] The above description is only a part or preferred embodiment of this application. Neither the text nor the drawings should limit the scope of protection of this application. All equivalent structural transformations made using the content of this application's specification and drawings under the overall concept of this application, or direct / indirect applications in other related technical fields, are included within the scope of protection of this application.
Claims
1. A smart guitar, comprising a body and a neck, characterized in that, The front of the instrument neck has at least two rows of keys arranged side by side. Each row of keys includes multiple chord keys arranged along the length of the instrument neck. The number of chord keys in each row is less than or equal to 5, and the total number of chord keys on the front of the instrument neck is less than or equal to 10.
2. The smart guitar according to claim 1, characterized in that, The at least two rows of keys include a first row of keys and a second row of keys; the first row of keys has 4 chord keys and the second row of keys has 3 chord keys; or, the first row of keys has 5 chord keys and the second row of keys has 2 chord keys.
3. The intelligent guitar according to claim 2, characterized in that, The first row of keys is located between the second row of keys and the underside of the neck.
4. The intelligent guitar according to claim 1, characterized in that, The distance between the first and last ends of each row of buttons is less than or equal to 120mm; and / or, The dimension of the chord key along the length of the neck is greater than or equal to 14 mm and less than or equal to 20 mm; and / or, Each of the chord keys is offset from the chord keys in the adjacent row of keys; and / or, The upper side of the neck is provided with chord indicator lights corresponding to the chord keys; and / or, The neck is equipped with a key circuit board; and / or, The back of the instrument body is provided with at least two spaced-apart strap hooks; and / or, The dimensions of the smart guitar along the length of the neck are between 250mm and 450mm.
5. The intelligent guitar according to any one of claims 1 to 4, characterized in that, The back of the neck is provided with major and / or minor keys, which are located between the chord keys and the end of the neck away from the body of the instrument.
6. The intelligent guitar according to claim 5, characterized in that, The back of the instrument neck is provided with the major key and the minor key; the major key and the minor key are arranged sequentially along the length of the instrument neck, and / or, the upper side of the instrument neck is provided with a major key indicator light corresponding to the major key and a minor key indicator light corresponding to the minor key.
7. The intelligent guitar according to any one of claims 1 to 4, characterized in that, The smart guitar also includes a tone adjustment component, which is located at one end of the guitar body near the neck, and / or the tone adjustment component is located on the upper side of the guitar body.
8. The intelligent guitar according to claim 7, characterized in that, The tone adjustment component is a tone knob, and the outer wall of the tone knob is provided with a plurality of tone marks spaced circumferentially along the tone knob; and / or, The smart guitar also includes a volume control, which is located at the end of the guitar body away from the neck.
9. The intelligent guitar according to any one of claims 1 to 4, characterized in that, The body of the instrument contains a sound cavity assembly, a pick assembly, a battery module, and a main board. The sound cavity assembly, the pick assembly, and the battery module are all electrically connected to the main board. The front of the instrument has a pick window corresponding to the position of the pick assembly. The pick assembly includes one or more picks extending from the pick window to the outside of the instrument. The front of the instrument has a sound outlet area corresponding to the sound cavity assembly.
10. The smart guitar according to claim 9, characterized in that, The sound cavity assembly is located above the paddle assembly, and the battery module is located below the paddle assembly; and / or, The sound chamber assembly, the plectrum assembly, and the battery module are all located between the mainboard and the neck; and / or, The sound chamber assembly includes a horn and a passive radiator, the passive radiator being located between the horn and the neck, and a vent hole being provided on the back of the instrument body.