The present disclosure generally relates to guitars, and particularly to a multifunctional guitar.
Electric guitars are the product of modern science and technology, and differ from traditional guitars in appearance and sound. Typically, an electric guitar is equipped with devices such as volume, pitch adjuster and tremolo structure. With the use of effects units, electric guitars have strong expressive power and play an important role in modern music.
Typically, an electric guitar can be connected to an external speaker through a cable. The pickup on the electric guitar converts the vibration signal into an electrical signal, and the electrical signal is transmitted to the external speaker through the cable, and then the sound is amplified by the external speaker.
Some conventional electric guitars are typically made of a single piece of hardwood. On the one hand, such a traditional structural design makes the electric guitar bulky and inconvenient to carry. On the other hand, electric guitars made of a single piece of hardwood are not easy to hold due to the lack of a handle.
Therefore, there is a need to provide a multifunctional guitar to overcome the above-mentioned problems.
Many aspects of the present embodiments can be better understood with reference to the following drawings. The components in the drawings are not necessarily drawn to scale, the emphasis instead being placed upon clearly illustrating the principles of the present embodiments. Moreover, in the drawings, all the views are schematic, and like reference numerals designate corresponding parts throughout the several views. Obviously, the drawings in the following description are only some embodiments of the present disclosure. For those of ordinary skill in the art, other drawings can be obtained based on these drawings without creative labor.
The disclosure is illustrated by way of example and not by way of limitation in the figures of the accompanying drawings, in which like reference numerals indicate similar elements. It should be noted that references to “an” or “one” embodiment in this disclosure are not necessarily to the same embodiment, and such references can mean “at least one” embodiment.
Referring to
Referring to
If no shock absorbing mechanism is provided, the sound emitted by the sound cavity of the Bluetooth speaker 30 will generate vibration, which will then cause the entire guitar body and the strings to vibrate. When the strings vibrate, the pickup system will collect the sound repeatedly, which will cause the speaker to “ howl.”
By integrating the Bluetooth speaker 30 on the guitar body 20, the pickup on the electric guitar converts the vibration signal into an electrical signal, and the electrical signal is transmitted to the Bluetooth speaker 30 through built-in cables, and then is amplified by the Bluetooth speaker 30. With such configuration, a player does not need to carry a cumbersome external speaker. Since the Bluetooth speaker 30 is integrated on the guitar body 20 without changing the size of the original guitar frame, the functions of the guitar are more diversified. In addition, the Bluetooth speaker 30 can also be connected with an external communication device (such as a mobile phone) via Bluetooth, and the external communication device can transmit the sound to the Bluetooth speaker 30 through electrical signals, and the Bluetooth speaker 30 amplifies the sound, which further increase the function of the guitar.
Referring to
By proving the handle 40, the following functions are achieved:
In one aspect, the handle 40 functions as a handle, and a player can carry the entire guitar by holding the handle 40, which is very convenient.
In another aspect, since the handle 40 is a curved bar, the outer frame formed by the handle 40 can effectively cooperate with the guitar body 20. When a player is playing the guitar, the handle 40 will press against the corresponding part of the player’s body, so that the player can comfortably hold the guitar.
In still another aspect, with such configuration that the first connection end 41 and the second connection end 42 are detachably inserted into the first receiving hole 21 and the second receiving hole 22, the handle 40 can be attached to or removed from the guitar body according to actual needs. When the guitar is in use, the handle 40 can be attached to the guitar body 20. When the guitar is not in use, the handle 40 can be removed from the guitar body 20, which is convenient for storage and carrying.
Regarding how the handle 40 is detachably mounted on the guitar body 20, two embodiments are provided below.
In one embodiment, the guitar 10 may include a first fastener (not shown) and a second fastener (not shown). Referring to
The first fastener and the second fastener may be bolts, and the first fastener hole and the second fastener hole may be threaded holes.
When the handle 40 needs to be mounted on the guitar body 20, the first connection end 41 can be first inserted into the first receiving hole 21, and the second connection end 42 can then be inserted into the second receiving hole 22. Then, the first fastener is passed through the first through hole 21 a and fastened to the first fastener hole 41a in the first connection end 41. The second fastener is passed through the second through hole and fastened to the second fastener hole in the second connection end 42. In this way, the handle 40 is mounted on the guitar body 20.
When the handle 40 needs to be detached from the guitar body 20, the first fastener can be reversely rotated so as to allow the first connection end 41 to be pulled out from the first receiving hole 21, and the second fastener can be reversely rotated so as to allow the second connection end 42 to be pulled out from the second receiving hole 22.
The handle 40 may be made of plastic material, which enables the guitar to be lightweight.
Referring to
By proving the locking mechanism 50 in the first receiving hole 21 and the second receiving hole 22, the locking mechanisms 50 are integrated with the whole guitar, and the handle 40 can be attached to or removed from the guitar body conveniently without additional fasteners.
Referring to
The barrels 100 of the locking mechanisms 50 are arranged in the first receiving hole 21 and the second receiving hole 22, respectively. Referring to
The locking tab 200 protrudes from the closed end 110 of the barrel 100 and has a connection end 210 and an engagement end 220 adjacent to the open end 120 of the barrel 100. The connection end 210 is pivotally connected to the closed end 110 of the barrel 100 through a torsion spring (not shown).
As shown in
Referring to
Referring to
Referring to
Referring to
When the handle 40 needs to be mounted on the guitar body 20, the first connection end 41 can be first inserted into the first receiving hole 21. Since the locking tab 200 can be elastically deformed, the protrusion 222 will push the engagement end 220 of the locking tab 200 and cause the locking tab 200 to elastically deflect when the protrusion 222 of the first connection end 41 moves into the barrel 100. After the protrusion 222 completely passes over the engagement end 220, the locking tab 200 will return to its original shape, causing the engagement end 220 to return to its original position. After that, since the engagement end 220 is provided with the one-way locking teeth 221, the one-way locking teeth 221 restricts the protrusion 222 and prevents it from moving out of the barrel 100.
After the first connection end 41 is held in position in the first receiving hole 21, the second connection end 42 can be held in position in the second receiving hole 22 in the same manner by the locking mechanism 50. In this way, the handle 40 can be quickly and stably mounted on the guitar body 20.
When the handle 40 needs to be removed from the guitar body 20, the first sliding button 520 can be first pushed to move by a user, which causes the first rack 510 to move. The first rack 510 then drives the first ring 310 to rotate. The first plate 320 rotates together with the first ring 310, causing the blocking structure 330 to rotate from a position (see
After that, the second sliding button 620 can then be pushed to move by a user, which causes the second rack 610 to move. The second rack 610 then drives the second ring 410 to rotate. The second plate 420 rotates together with the second ring 410, causing the pushing structure 430 to rotate. During rotation of the pushing structure 430, it pushes the locking tab 200 to deflect. After the locking tab 200 has deflected for a predetermined angle, one of the one-way locking teeth (i.e., the lowermost locking tooth in
As can be seen from the above, when the handle 40 needs to be detached from the guitar body 20, it needs to move the first sliding button 520 and the second sliding button 620 in turn. Such a structural design can fully ensure the stability of the handle 40 and the guitar body 20 during the connection process. If the sequence is not correct, the removal of the handle 40 cannot be achieved. Specifically, if a user attempts to move the second sliding button 620 first, the locking tab 200 cannot deflect because it is blocked by the blocking structure 330, which results in that the second sliding button 620 cannot move.
Referring to
After the first connection end 41 and the second connection end 42 moves out of the first receiving hole 21 and the second receiving hole 22, a user needs to move the first sliding button 610 and the second sliding button 620 back to their original positions such that they are ready for the handle 40 to be attached to the guitar body 20 again.
It can be seen from the above that the first sliding button 610 and the second sliding button 620 are moved back to their original positions after the first connection end 41 and the second connection end 42 are moved out from the first receiving hole 21 and the second receiving hole 22. It would be convenient for a user if the relevant components can return to their original positions automatically without the annually resetting of the first sliding button 610 and the second sliding button 620.
To achieve the above-mentioned purpose, the locking mechanism 50 may further include a position resetting mechanism 700 (see
Referring also to
The return spring 710 is arranged between the second rotating member 400 and the barrel 100. The return spring 710 is to provide a torque to the second rotating member 400 to rotate the second rotating member 400 to its original position.
The friction plate 720 stays in contact with the first plate 320 of the first rotating member 300. In one embodiment, the friction plate 720 is connected to the second rotating member 40 via a key.
The pressing spring 730 is arranged between the friction plate 720 and the second rotating member 400. The pressing spring 730 is to provide a pushing force to the friction plate 720 to create a desired friction between the friction plate 720 and the first plate 320 of the first rotating member 300. In order to increase the frictional force between the friction plate 720 and the first plate 320, the friction plate 720 is in a surface-to-surface contact with the first plate 320. Friction protrusions 101 may be formed on the surface of the friction plate 720 which is in contact with the first plate 320.
The working principle of the above-mentioned position resetting mechanism 700 will be described below in conjunction with the process of detaching the handle 40 from the guitar body 20.
The first sliding button 520 can be first moved by a user. The first rack 510 then moves together with the first sliding button 520 and rotates the first ring 310. The first plate 320 then rotates together with the first ring 310. In this process, although there is friction between the friction plate 720 and the first plate 320, the frictional force is not enough to make the first plate 320 drive the friction plate 720 and the second rotating member 400 to rotate. This is because the return spring 710 provides a strong anti-torsion force for the second rotating member 400, and the friction force is not enough to overcome the anti-torsion force, thereby keeping the second rotating member 400 stationary. As a result, slippage occurs between the friction plate 720 and the first plate 320.
After the first plate 320 rotates to a position as shown in
After that, the second sliding button 620 can be first moved by a user. The second rack 610 then moves together with the second sliding button 620 and rotates the second ring 410. The second plate 420 then rotates together with the second ring 410.
Here, it should be noted that the second sliding button 620 needs to be moved by a strong external force that is sufficient to overcome the anti-torsion force provided by the return spring 710, and makes the second rotating member 400 rotate. When the second rotating member 400 rotates, the pushing structure 430 rotates together with the second plate 420 and pushes the locking tab 200, thereby deflecting the locking tab 200. During this process, although there is friction between the friction plate 720 and the first plate 320, the first plate 320 has reached the limit position of its rotation and cannot be rotated further.
After the locking tab 200 has deflected for a predetermined angle, one of the one-way locking teeth (i.e., the lowermost locking tooth in
After the first connection end 41 and the second connection end 42 move out of the first receiving hole 21 and the second receiving hole 22, a user can stop exerting force on the second sliding button 620. The second rotating member 40 can then rotate back to its original position (see
Here, it should be noted that, when the first rotating member 300 and the second rotating member 400 are both in the reset state (see
The embodiments above are only illustrative for the technical solutions of the present disclosure, rather than limiting the present disclosure. Although the present disclosure is described in detail with reference to the above embodiments, those of ordinary skill in the art should understand that they still can modify the technical solutions described in the foregoing various embodiments, or make equivalent substitutions on partial technical features; however, these modifications or substitutions do not make the nature of the corresponding technical solution depart from the spirit and scope of technical solutions of various embodiments of the present disclosure, and all should be included within the protection scope of the present disclosure.
Number | Date | Country | Kind |
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202110949109.X | Aug 2021 | CN | national |
The present application is a continuation-application of International Application PCT/CN2021/138315, with an international filing date of Dec. 15, 2021, which claims foreign priority of Chinese Patent Application No. 202110949109.X, filed on Aug. 18, 2021 in the China National Intellectual Property Administration of China, the contents of all of which are hereby incorporated by reference.
Number | Date | Country | |
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Parent | PCT/CN2021/138315 | Dec 2021 | US |
Child | 17724481 | US |