The invention relates to a music box device, and more particularly to a music box device which can play a plurality of various music and has a compact and strong structure and operates smoothly.
Conventionally, a music box device, or an orgel is referred to an automatically played music instrument which comprises a vibration plate having a plurality of vibration pins corresponding to musical scale and a cylinder or a disc having a plurality of striking protrusions disposed correspondingly to musical scale and rhythm, and when the cylinder or disc turns, the striking protrusion strikes the vibration pin of the vibration plate timely to generate sound. The music box device is generally made to generate pure and clear sound and have a decorative case.
Recently, a new type music box device is introduced in which operating timing of the striking protrusion to strike the vibration pin is controlled by a microcomputer which store MIDI data so that a plurality of music can be played. This type of music box generally includes a plurality of striking wheels densely arranged correspondingly to the vibration pins of the vibration plate, and a plurality of solenoids densely arranged correspondingly to the striking wheels. This type music box device generally comprises many parts of vibration pin striking mechanism inclusive of the solenoids corresponding to the plurality of striking wheels, and its structures is also complicated, so it is difficult to achieve a music box device which can operate smoothly with compact, rigid and durable structure.
The invention is proposed to solve the above problems, and the object of the invention is to provide a music box device which has an operating mechanism including a plurality of solenoids operating accordingly to MIDI data stored in memory of a microcomputer, and a plurality of striking wheels operated by the solenoids, and can operate smoothly with compact, rigid and durable structure.
According to an aspect of the invention, there is provided a music box device which comprises:
a vibration plate 20 disposed on one side of the body 1 and on which a plurality of vibration pins 22 are arranged;
a plurality of striking wheels 30 which are disposed adjacent to the vibration pins 22 and slippably friction-coupled to a first shaft 31 and have striking protrusions 32 for striking the vibration pins 22 formed on a circumferential part with concave portions 33 interposed therebetween;
a driving wheel 40 which is disposed adjacent to the striking wheels 30 and rotated while being fixedly coupled to a second shaft 41, and has a plurality of driving protrusions 42 formed on a circumferential part thereof such that, when the driving protrusions 42 are engaged with the striking protrusions 32 of the striking wheels 30, then the driving wheels 40 rotates the striking wheels 30, while the driving protrusions 42 face on the concave portions 33, then the driving wheels 40 rotate idle;
a driving motor 4 coupled operatively to the first shaft 31 and the second shaft 41;
a stopper array 50 comprising a plurality of stoppers 52 disposed adjacent to the striking wheels 30 and selectively engaged with the striking protrusions 32 to stop and allow rotating of the striking wheels 30, and a plurality of solenoids 54 for reciprocatingly driving each of the stoppers 52;
and a microcomputer 10 to control the operating timing of the solenoids 54 according to MIDI data; wherein
the solenoids 54 of the stoppers array parts 50 comprises a plurality of coils 55 which are flatly wound so as to have a elongated hole 56 therein, and arranged so that flat side surfaces are adjacent to each other, and a movable core 57 which has a flat plate shape that is inserted into the elongated hole 56 in each of the coils 55 and has an end in which the stoppers 52 are attached thereto or integrally formed therewith,
the stopper arrays 50 includes a solenoid support 60 disposed on the body 1 and a plurality of solenoids 54 are arranged on it in parallel, a plurality of guide pins 62 disposed on the solenoid support 60 in parallel correspondingly to each solenoid, and a plurality of sliders 65 which are attached to the movable core 57 and slidably engaged with the guide pins 62 and have the stopper 52 formed on the front end of it.
According to the other aspect of the invention, there is provided a music box device wherein, a rotating claw 58 is provided between the stopper 52 of the slider 65 and the striking wheel 30, so that the linearly moving stopper 52 rotates the rotating claw 58 to engage with the striking protrusion 32 of the striking wheel 30 to stop the striking wheel 30 rotating or retreat from the striking protrusion 32 to allow the striking wheel 30 to rotate.
According to the invention wherein the music box device comprising a vibration plate 20 on which a plurality of vibration pins 22 are arranged, a plurality of striking wheels 30 which are slippably friction-coupled to a first shaft 31 and have striking protrusions 32, a driving wheel 40 which is rotated while being fixedly coupled to a second shaft 41, and has a plurality of driving protrusions and a stopper array 50 having a plurality of stoppers 52 disposed adjacent to the striking wheels 30 and a plurality of solenoids 54 for reciprocatingly driving each of the stoppers 52, as the solenoids comprises a plurality of coils 55 flatly wound so as to have a elongated hole 56 therein and arranged so that flat side surfaces are adjacent to each other, and a movable core 57 which has a flat plate shape that is inserted into the elongated hole 56 in each of the coils 55, the disposition interval of the solenoids can be reduced in comparation with the circularly wound solenoid having equivalent winding number, length or equivalent electromagnetic force so that the solenoids 54 can be arranged in a narrow space correspondingly to the interval of the densely disposed vibration plates 20 or striking wheels, 30, so the compact structure of the stopper array 50, and the compact music box device can be achieved.
And, according to the invention, as the solenoids 54 are arranged on the solenoid support 60 in parallel, the guide pins 62 are disposed on the solenoid support 60 in parallel correspondingly to each solenoid, and the sliders 65 which are attached to the movable core 57 and slidably engaged with the guide pins 62 and have the stopper 52 formed on the front end of it, a plurality of solenoids 54 can be compactly arranged and supported, and the stoppers 52 attached to the movable cores 57 are installed on the slider 65 guided by the guide pins 62 to achieve smooth reciprocating movement and stable support.
Hereinafter, the preferred embodiments of the invention will be described with reference to the drawings.
As shown in
Striking wheels 30 are disposed adjacent to each vibration pins 22 and are slippably friction-coupled to a first shaft 31 supported on the body 1. The striking wheels 30 are arranged to be engaged into the first shaft 31 as the striking wheel 30 being spaced apart to each other by a spacer 36 with the same interval. A plurality of striking protrusions 32 are formed in the same interval on a circumferential part with concave portions 33 interposed therebetween. The vibration pins 22 of the vibration plate 20 is positioned within the rotating path of the striking protrusions 32 so that the striking protrusions 32 can strike the vibration pin 22 to generate sound according to the rotation of the striking wheel 30.
According to the above construction, as mentioned below, if the striking protrusion 32 is engaged with the stopper 52, the rotation of the striking wheel 30 is stopped, but the first shaft 31 still rotates so that the first shaft 31 rotates idle against the striking wheel 30, and if the striking protrusion 32 is released from the stopper 52, the striking wheel 30 rotates with the first shaft 31 by the friction force with the first shaft 31 and strike the vibration pin 22 of the vibration plate 20 to generate sound.
A driving wheel 40 is provided adjacent to the striking wheels 30 and fixedly coupled to a second shaft 41 supported on the body 1. Preferably, the driving wheel 40 is made in the shape of roll and is provided with a plurality of driving protrusions 42 on the circumferential part thereof extending in the axial direction. The driving protrusion 42 is of the shape being curved toward the rotating direction. The curved shape of the driving protrusion is properly determined so that, if the driving protrusion 42 of the driving wheel 40 faces on the concave portions 33 of the adjacent striking wheel 30, the driving protrusion 42 is not interfered with the striking protrusion 42, and if the driving protrusion 42 faces on the striking protrusion 32, then the driving protrusion 42 is interfered with the striking protrusion 42 so as to drive the striking protrusion 42 forward.
The second shaft 41 fixed coupled to the driving wheel 40 is operatively connected to the driving motor 4. The first shaft 31 and the second shaft 41 are engaged with each other by means of the gears 38,48, so that the first shaft 31 is also driven by the motor 4.
According to the invention, as shown in
For this, according to the invention, the solenoid 54 of the stopper array 50 is made of a plurality of coils 55 wound flatly to form an elongated hole 56, and the coils 55 are arranged so that flat side surfaces are adjacent to each other, which make it possible to narrow the installing interval of the solenoids 50 effectively. And a flat movable core 57 is inserted into the elongated hole 56 of the solenoid 54 and can be moved reciprocatively in the elongated hole 56. The above-mentioned stopper 52 is installed at the front end of the movable core 57. The stopper 52 can be attached to the movable core 57 or it can be made integral to the movable core 57 so that the front end of the movable core 57 functions as a stopper.
For now, the detailed construction of the stopper array 50 will be explained below. A solenoid support 60 is installed on one side of the body 1 of the music box device. On the solenoid support 60, the above-mentioned flat type solenoids 54 are arranged in parallel so that the flat side of the solenoid 54 being faced to each other. A plurality of guide pins 62 are engaged on the solenoid support 60 above and below the solenoids 54. And a plurality of sliders 65 engaged with the movable cores 57 integrally are slidably engaged with the guide pins 62. A coil spring 67 is elastically installed on the upper guide pin 62 between the slider 65 and the solenoid support 60, so that, if electric power is applied on the solenoid 54, the movable core 57 will retreat together with the slider 65 against the elastic force of the coil spring 67, and if the electric power is off, the movable core 57 will move forward together with the slider 65 by the elastic force of the coil spring 67. At the front end of the slider 65 is provided the stopper 52 of the bar shape as mentioned above. This slider 65 is moved reciprocatively as being guided by the guide pins 65, and the slider 65 is also guided along the guide groove 68 formed on the lower part of the solenoid support 60.
According to the invention, a microcomputer 10 is provided on the body 1 to communicate the various MIDI data with outer devices and stores on the embedded memory, and can control the operating timing of the solenoid 54 according to the MIDI data.
Hereinafter, the operation of the invention having the above-mentioned construction is described. If electric power is applied to the music box device for playing music, the driving motor 4 will rotate the first shaft 31 and the second shaft 41. Then the striking wheel 30 will be in the state of selective rotation that it stops from rotating if it is interfered with the stopper 52, and it rotates if it not interfered with the stopper 52. And the driving wheel 40 fixedly coupled to the second shaft 41 will be in the state of rotating.
For now, the operation of the striking wheel 30 is describe below. If strike signal for a predetermined vibration pin 22 is not output from the microcomputer 10, as shown in
In this state, if the microcomputer 10 generates a strike signal for a predetermined vibration pin 22, the corresponding solenoid 54 is energized, and as shown in
Number | Date | Country | Kind |
---|---|---|---|
10-2016-0145837 | Nov 2016 | KR | national |
Filing Document | Filing Date | Country | Kind |
---|---|---|---|
PCT/KR2017/011604 | 10/19/2017 | WO | 00 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2018/084470 | 5/11/2018 | WO | A |
Number | Name | Date | Kind |
---|---|---|---|
6936757 | Muramatsu | Aug 2005 | B2 |
6960710 | Segan | Nov 2005 | B2 |
7034215 | Kaneko | Apr 2006 | B2 |
7321090 | Meng-Suen | Jan 2008 | B2 |
7544870 | White | Jun 2009 | B2 |
9012749 | Ikeda | Apr 2015 | B2 |
9053686 | Ikeda | Jun 2015 | B2 |
20190266985 | Han | Aug 2019 | A1 |
Number | Date | Country |
---|---|---|
2006-165205 | Jun 2006 | JP |
2011-128348 | Jun 2011 | JP |
2014-142418 | Aug 2014 | JP |
10-2012-0095001 | Aug 2012 | KR |
2013-022196 | Feb 2013 | WO |
Entry |
---|
International Search Report for International Application No. PCT/KR2017/011604, dated Jan. 23, 2018. |
Written Opinion for International Application No. PCT/KR2017/011604, dated Jan. 23, 2018. |
Number | Date | Country | |
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20190266985 A1 | Aug 2019 | US |