JP2004226688A - Keyboard apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To improve the durability and assembly and to obtain a key touch feeling close to a key touch feeling of an acoustic piano. <P>SOLUTION: In a keyboard apparatus in which a keyboard chassis 1 where keys 2 are arrayed is provided with hammer arms 3 imparting action loads to each of the keys 2, each key 2 is provided with an extension part 36 which extends to project downward from the key, and a hammer holding part 38 comprising an upper fixed plate part 40 for holding a key abutting part 29 of the hammer arm 3 and an elastically deformable lock part 41 is provided below the extension part 36. The upper fixed plate part 30 does not elastically deform, therefore, the durability is high and even when the key 2 is strongly pressed, the keying operation is securely transmitted to the hammer arm 3, thereby obtaining a key touch feeling close to the key touch of an acoustic piano. Further, the hammer holding part 38 projects downward from the key 2, so that the hammer holding part 38 is easy to see, the key abutting part 29 is easily held by the hammer holding part 38, and the assembly operability is improved. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a keyboard device used for a keyboard instrument such as an electronic piano.
[0002]
[Prior art]
Conventionally, in a keyboard instrument such as an electronic piano, in order to obtain a key touch feeling similar to that of an acoustic piano, a hammer arm having a weight on the lower side of the key is provided rotatably in the vertical direction, and the key There is a configuration in which a predetermined action load is applied to a key by rotating a hammer arm against the weight of the weight in accordance with a key pressing operation (for example, see Patent Document 1).
[0003]
[Patent Document 1]
JP 2000-352978 (P2000-352978A)
[0004]
This type of keyboard instrument has a hollow portion into which a key contact portion which is one end of a hammer arm is inserted inside a key, and an elastic body including an upper elastic portion and a lower elastic portion is provided in this hollow portion. The key contact portion of the hammer arm vibrates in the hollow portion of the key when the key is pressed and released by elastically sandwiching the key contact portion between the upper elastic portion and the lower elastic portion of the elastic body from above and below. However, the vibration is absorbed by the upper elastic portion and the lower elastic portion of the elastic body so that the vibration of the hammer arm is not transmitted to the key.
[0005]
[Problems to be solved by the invention]
However, in such a keyboard instrument, even when a predetermined action load can be applied to the key by the hammer arm, the upper elastic portion and the lower elastic portion of the elastic body are elastically deformed when the key is pressed and released. However, when a key is strongly pressed, the rotation of the hammer arm with respect to the key pressing operation is delayed, so that a key touch feeling similar to that of an acoustic piano cannot be obtained. There is.
[0006]
Further, in such a keyboard instrument, both the upper elastic portion and the lower elastic portion of the elastic body are always elastically deformed in response to a key-depressing operation, and thus there is a problem in durability of the upper elastic portion and the lower elastic portion. In addition, since the elastic body is located in the hollow portion inside the key and is provided close to the upper surface of the key, when the key contact portion of the hammer arm is sandwiched between the elastic bodies, the elastic body is not easily seen. Also, since it is difficult to insert the key contact portion of the hammer arm into the elastic body, there is a problem that the assembling workability is poor.
[0007]
SUMMARY OF THE INVENTION It is an object of the present invention to improve durability and assembling workability, and to obtain a key touch feeling close to that of an acoustic piano.
[0008]
[Means for Solving the Problems]
The present invention has the following components in order to solve the above problems. In addition, to each component, reference numerals and the like of the drawings attached to each element described in the section of each embodiment described later are added together with parentheses.
According to the first aspect of the present invention, as shown in FIGS. 1 to 12, a keyboard chassis (1), a plurality of keys (2) arranged on the keyboard chassis so as to be rotatable in a vertical direction, and A key device which is disposed in correspondence with each of the plurality of keys, and is provided with a hammer arm (3) which is rotated and displaced in accordance with a key pressing operation of the key to apply an action load to the key; An extension portion (36) is extended by protruding below the key, and an upper fixing plate for holding one end (key contact portions 29, 50) of the hammer arm at a lower portion of the extension portion. A keyboard device comprising a hammer holding portion (38, 51, 55) including a portion (40, 52) and an elastically deformable lower locking portion (41, 53, 56).
[0009]
According to the present invention, the lower member capable of being elastically deformed with the upper fixing plate portion is provided with the hammer holding portion provided on the extension portion of the key and holding one end of the hammer arm (that is, the key contact portion of the hammer arm). With the stop part, the upper fixing plate part of the hammer holding part does not elastically deform at the time of key depression and key release, so even if the key is pressed strongly, the key depression operation of the key can be performed. Can be transmitted without causing an operation delay, whereby a key touch feeling similar to that of an acoustic piano can be obtained satisfactorily.
[0010]
Further, according to the present invention, the key is provided with an extended portion protruding below the key and extended, and an elastically deformable lower lock for elastically holding one end of the hammer arm below the extended portion. Because the lower portion is elastically deformed, not only can the vibration of the hammer arm at the time of key pressing and key release be absorbed by the elastic deformation of the lower locking portion, but also the upper fixing plate of the hammer holding portion at the time of key pressing and key release. Since the part does not elastically deform, the durability can be increased, and the hammer holding part is exposed below the key, making it easy to see the hammer holding part, so that one end of the hammer arm can be hammered. The holder can be easily held by the holding portion, thereby improving the assembling workability.
[0011]
According to the second aspect of the present invention, as shown in FIGS. 1 to 7, the lower locking portion (41) of the hammer holding portion (38) is connected to the one end portion (key pad) of the hammer arm (3). The keyboard device according to claim 1, wherein the lower surface on the distal end side is elastically held by elastically deforming along the distal end surface of the contact portion (29) to get over the elastic member.
According to the present invention, when the one end of the hammer arm is held between the upper fixing plate portion and the lower engagement portion of the hammer holding portion, the lower engagement portion extends along the distal end surface of the one end of the hammer arm. The lower locking part elastically returns and locks the lower surface on the tip side by elastic deformation and gets over, so one end of the hammer arm can be easily positioned between the upper fixing plate part of the hammer holding part and the lower locking part. And reliably.
[0012]
As shown in FIGS. 1 to 7, the invention according to claim 3 is characterized in that the lower engagement portion (the lower end portion of the one end portion (key contact portion 29) of the hammer arm (3)) The keyboard device according to claim 2, characterized in that a projection (32) for elastically deforming and moving over the projection (41) is provided so as to protrude toward the distal end. According to the present invention, when the one end of the hammer arm is held between the upper fixing plate portion and the lower locking portion of the hammer holding portion, the projection provided at one end of the hammer arm has the lower locking portion. Can be forcibly elastically deformed, and when the elastically deformed lower locking portion gets over the projection, the lower locking portion is elastically restored to securely lock the lower surface of the projection. Accordingly, one end of the hammer arm can be securely held between the upper fixing plate portion and the lower locking portion of the hammer holding portion.
[0013]
According to a fourth aspect of the present invention, as shown in FIGS. 8 to 12, the lower locking portions (53, 56) of the hammer holding portions (51, 55) are connected to the one end of the hammer arm (3). 2. The lower surface of said one end of said hammer arm is elastically held by elastically deforming along at least one of the two side surfaces of said portion (key contact portion 50) and overcoming it. 4. The keyboard device according to claim 1.
According to the present invention, when holding one end of the hammer arm between the upper fixing plate portion and the lower locking portion of the hammer holding portion, the lower locking portion is formed on both side surfaces of the one end of the hammer arm. When the elastic member is elastically deformed along at least one side and gets over, the lower engaging portion is elastically restored and the lower surface of the one end of the hammer arm is engaged. It can be easily and reliably held between the locking portion. In this case, if the hammer holding portion is provided with a pair of lower locking portions (53) that elastically deform along the two side surfaces of the one end of the hammer arm and go over the lower surface, the lower surface of the one end of the hammer arm is moved from both sides. Since the hammer arm can be locked, the one end of the hammer arm can be more securely held between the upper fixing plate portion and the lower locking portion of the hammer holding portion.
[0014]
The invention according to claim 5 is, as shown in FIGS. 1 to 12, a portion located above the hammer holding portion (38, 51, 55) in the extension portion (36) of the key (2). The keyboard device according to any one of claims 1 to 4, wherein a guide portion (37) guided by a key guide (7) provided on the keyboard chassis (1) is provided on the keyboard device. is there.
According to the present invention, since the guide portion provided at a position above the hammer holding portion in the extended portion of the key is guided by the key guide of the keyboard chassis, it is possible to prevent the key from swaying. For this reason, when holding the one end of the hammer arm between the upper fixing plate portion and the lower locking portion of the hammer holding portion, the key does not swing, so that the one end of the hammer arm can be easily moved to the hammer holding portion. The key and the hammer arm can be moved smoothly in the vertical direction, because they can be inserted correspondingly, which can also improve the workability of assembly and prevent the hammer arm from swaying sideways. The key depression operation can be performed satisfactorily.
[0015]
BEST MODE FOR CARRYING OUT THE INVENTION
[First Embodiment]
Hereinafter, a first embodiment of a keyboard device of the present invention will be described with reference to FIGS.
As shown in FIGS. 1 and 2, the keyboard device includes a keyboard chassis 1 made of a synthetic resin, and a plurality of keys (white keys) made of a synthetic resin provided on the keyboard chassis 1 so as to be vertically rotatable. , A black key, but a white key will be described here.) 2, a hammer arm 3 for applying an action load to each of the plurality of keys 2, and a rubber for outputting an ON signal in accordance with a key pressing operation of each key 2. And a switch 4.
[0016]
As shown in FIGS. 1 and 2, the keyboard chassis 1 constitutes a lower case of a musical instrument main body, and each part described later is integrally formed of synthetic resin. That is, a front cover 5 is formed at the front end (right end in FIG. 1) of the keyboard chassis 1 so as to protrude upward from the bottom side. The N-shaped guide mounting portion 6 is formed at a height that is approximately half the height of the front cover portion 5. A key guide 7 for preventing the key 2 from swaying is formed on the guide mounting portion 6 so as to stand substantially vertically from a tip end projecting rearward (left side in FIG. 1).
[0017]
A stopper mounting portion 8 and a hammer mounting portion 9 are formed on the front side of an intermediate portion of the keyboard chassis 1. The stopper mounting portion 8 is formed at a height of about half the height of the guide mounting portion 6, and has a top surface such as a felt or the like that regulates the lower limit position of the key 2 when the key is pressed. A lower limit stopper 10 is provided. The hammer mounting portion 9 is formed slightly higher than the stopper mounting portion 8, and a hammer support portion 11 is formed on the upper surface thereof. In this case, as shown in FIGS. 1 and 2, mounting bosses 12 are respectively suspended from the lower surface of the guide mounting portion 6 and the lower surface of the hammer mounting portion 9. A bottom plate 13 on the front side, which continuously closes the bottoms of the guide mounting portion 6, the stopper mounting portion 8, and the hammer mounting portion 9, is attached by a screw 14.
[0018]
A reinforcing portion 15 for securing the strength of the keyboard chassis 1 is formed substantially in an M-shape on the rear side of the middle portion of the keyboard chassis 1. The reinforcing portion 15 is formed such that the front portion has substantially the same height as the hammer placing portion 9 and the rear portion (the left side in FIG. 1) gradually decreases. A plurality of support bosses 16 are formed at predetermined positions of the reinforcing portion 15 so as to be higher than the guide mounting portion 6, and a switch substrate 17 is screwed onto these support bosses 16. Further, at the rear of the keyboard chassis 1, as shown in FIGS. 1 and 2, a key holding portion 18 is formed slightly lower than the front cover portion 5 and slightly higher than the switch substrate 17, and has a top surface. Has a key support portion 19 for rotatably supporting the key 2.
[0019]
In this case, an opening 21 into which the rear end of the hammer arm 3 is inserted is provided in the front leg 20 of the key holding portion 18 along the key 2 arrangement direction. A mounting boss 22 is also hung down on the key holding portion 18, and a bottom plate 23 on the rear side for closing the bottom of the key holding portion 18 is mounted to a lower end of the mounting boss 22 with a screw 24. . On the upper surface of the bottom plate 23, a lower limit stopper 25 such as felt for regulating the lower limit position of the hammer arm 3 is provided. On the lower surface of the key holding portion 18, a felt or the like for regulating the upper limit position of the hammer arm 3 is provided. An upper limit stopper 26 is provided.
[0020]
On the other hand, as shown in FIGS. 1 and 2, the hammer arm 3 has an arm main body 27 disposed above an intermediate portion of the keyboard chassis 1 and a rear end (left end in FIG. 1) of the arm main body 27. The weight portion 28 provided, a key contact portion 29 provided at a front end portion (right end portion in FIG. 1) of the arm body 27, and a key contact portion 29 provided at a position located at a rear portion of the key contact portion 29 in the arm body 27. And a rotation support portion 30. The hammer arm 3 has a weight portion 28 inserted from above the keyboard chassis 1 into the opening 21 of the front leg portion 20 of the key holding portion 18 of the keyboard chassis 1, and a key contact portion 29 attached to the keyboard chassis 1. In this state, the rotation support portion 30 is attached to a hammer support shaft 31 provided on the hammer support portion 11 of the keyboard chassis 1 so as to be vertically rotatable.
[0021]
In this case, the key contact portion 29 is made of an elastic material such as rubber, has an upper surface formed in an arc shape, and a lower surface formed on an inclined surface which rises forward (in FIG. 1, rises to the right). A substantially triangular projection 32 is formed at a lower portion of the tip end surface (right end surface in FIG. 1) of the key contact portion 29 so as to protrude forward (rightward in FIG. 1) of the key 2. As shown in FIG. 1, the hammer arm 3 is normally urged downward by the weight of the weight portion 28, and the weight portion 28 comes into contact with a lower limit stopper 25 such as a felt provided on the bottom plate 23. , The position is regulated to a predetermined lower limit position. When the key 2 is pressed against the weight of the weight portion 28, the hammer arm 3 is provided with the weight portion 28 on the lower surface of the key holding portion 18 of the keyboard chassis 1, as shown in FIG. By contacting an upper limit stopper 26 such as a felt, the position is restricted to a predetermined upper limit position.
[0022]
As shown in FIGS. 1 and 2, the key 2 is provided with key mounting holes 33 on both sides of its rear end (the left end in FIG. 1), and the key mounting holes 33 are used to support the key of the keyboard chassis 1. It is rotatably attached to a key support shaft 34 provided in the portion 19, and thereby is configured to rotate vertically about the key support shaft 34. A switch pressing portion 35 that presses the rubber switch 4 of the switch substrate 17 mounted on the support boss 16 of the reinforcing portion 15 of the keyboard chassis 1 is formed in the middle of the key 2. Further, an extension 36 projects downward from the key 2 at a position of the key 2 located in front of the switch pressing portion 35, that is, at a position corresponding to the key guide 7 of the keyboard chassis 1.
[0023]
The extending portion 36 has a substantially inverted U-shaped cross section, and is formed to protrude from the lower surface inside the key 2 to below the key guide 7 of the keyboard chassis 1. At an upper portion of the extension portion 36, a guide portion 37 into which the key guide 7 is inserted and guided in the vertical direction is formed in a state opened to the front of the key 2 (the right side in FIG. 1). Further, a hammer holding portion 38 for holding the key contact portion 29 of the hammer arm 3 is formed at a lower portion of the extension portion 36, that is, a lower portion protruding below the key guide 7. As shown in FIGS. 1 and 2, the hammer holding portion 38 includes an upper fixing plate portion 40 and a lower locking portion 41.
[0024]
In this case, the upper fixed plate portion 40 is a plate portion formed substantially parallel to the upper surface of the key 2, that is, the key-pressing surface. In this state, the upper surface of the key contact portion 29 of the hammer arm 3 contacts the lower surface of the upper fixed plate portion 40 and slides. Further, the lower locking portion 41 has an arm portion 41a hanging down from a front end portion (right end portion in FIG. 1) on the lower surface of the upper fixed plate portion 40, and a rearward portion (leftward in FIG. 1) from a lower end portion of the arm portion 41a. ), Which are elastically deformed along the distal end surface of the key abutting portion 29 of the hammer arm 3, and the projections 32 on the distal end surface are removed. The elastic piece deforms and gets over, so that the locking piece 41b abuts on the lower surface of the key abutting portion 29 of the hammer arm 3, that is, the lower surface of the protruding portion 32, so that the key abutting portion 29 is elastically held. .
[0025]
The key 2 is urged upward by a key contact portion 29 of the hammer arm 3, and the weight 2 of the hammer arm 3 normally contacts the lower limit stopper 25 as shown in FIG. The position is restricted to the upper limit position which is the initial position of. When the key 2 is pressed against the weight of the weight portion 28 of the hammer arm 3, the weight portion 28 contacts the upper limit stopper 26 as shown in FIG. The lower surface of the key contact portion 29 of the arm 3 also comes into contact with the lower limit stopper 10 on the stopper mounting portion 8 so that the position is regulated to a predetermined lower limit position.
[0026]
The rubber switch 4 includes a rubber sheet disposed on the switch board 17, a dome-shaped bulge is formed on the rubber sheet, and a movable contact is provided in the bulge. The swelling portion is elastically deformed and movable when the swelling portion is pressed by the switch pressing portion 35 of the key 2 in response to the key-pressing operation. The contact is configured to contact the fixed contact, thereby outputting an ON signal.
[0027]
Next, a case where such a keyboard device is assembled will be described.
In this case, as shown in FIG. 3, the bottom plates 13 and 23 are attached to the bottom of the keyboard chassis 1 in advance. After that, the hammer arm 3 is arranged on the keyboard chassis 1. At this time, the weight portion 28 of the hammer arm 3 is inserted into the opening 21 of the front leg portion 20 of the key holding portion 18 of the keyboard chassis 1 and the key contact portion 29 is positioned below the key guide 7 of the keyboard chassis 1. Side, and in this state, the rotation support portion 30 is rotatably attached to a hammer support shaft 31 provided on the hammer support portion 11 of the keyboard chassis 1. After the switch board 17 is mounted on the support boss 16 provided in the middle part of the keyboard chassis 1, the key 2 is mounted on the keyboard chassis 1 from above.
[0028]
At this time, first, the key guide 7 of the keyboard chassis 1 is inserted into the guide portion 37 provided above the extension portion 36 of the key 2, and in this state, the hammer provided below the extension portion 36 of the key 2 is inserted. The key contact portion 29 of the hammer arm 3 is inserted and held between the upper fixing plate portion 40 and the lower locking portion 41 of the holding portion 38. In this case, first, as shown in FIGS. 3 and 4, the key contact portion 29 is made to correspond to the lower portion of the lower locking portion 41 of the hammer holding portion 38, and the key 2 is pressed down in this state. At this time, since the key 2 is guided by the key guide 7 so as not to swing sideways, the hammer holding portion 38 of the key 2 can be pushed down in a state in which the hammer holding portion 38 surely corresponds to the key contact portion 29 of the hammer arm 3. .
[0029]
When the key 2 is depressed in this manner, the locking piece 41b of the lower locking portion 41 of the hammer holding portion 38 moves downward along the distal end surface of the key contact portion 29 as shown in FIG. To abut on the projection 32 of the key contact portion 29. Then, as shown in FIG. 6, when the key 2 is further depressed, the locking piece 41b of the lower locking portion 41 of the hammer holding portion 38 is pushed up by the projection 32 of the key contact portion 29, whereby the lower locking is performed. The locking piece 41b of the portion 41 is elastically deformed upward, and the elastically deformed locking piece 41b of the lower locking portion 41 gets over the projection 32. Then, as shown in FIG. 7, the locking piece 41 b is elastically restored, and the elastically restored locking piece 41 b abuts on the lower surface of the projection 32 of the key abutting section 29 to elastically move the key abutting section 29. To hold.
[0030]
Thereby, the key contact portion 29 of the hammer arm 3 is sandwiched between the upper fixing plate portion 40 and the lower locking portion 41 of the hammer holding portion 38, and in this state, the key contact portion 29 is And slidably held between the lower locking portion 41 and the lower locking portion 41. In this state, the switch pressing portion 35 of the key 2 is made to correspond to the rubber switch 4 of the switch board 17, and the key mounting hole portion 33 at the rear end of the key 2 is connected to the key support shaft 34 of the key support portion 19 of the keyboard chassis 1. To be rotatable up and down. Thereby, the key 2 and the hammer arm 3 are mounted on the keyboard chassis 1 so as to be rotatable in the vertical direction.
[0031]
In the keyboard device assembled in this way, as shown in FIG. And the position of the hammer arm 3 is regulated to a predetermined lower limit position, and the key 2 is urged upward by the key contact portion 29 of the hammer arm 3 to regulate the position of the hammer arm 3 to the upper limit position which is a predetermined initial position. Is done. When the key 2 is pressed against the weight of the weight 28 of the hammer arm 3 in this state, the key 2 is rotated clockwise about the key support shaft 34 at the rear end as shown in FIG. Move. At this time, since the guide portion 37 of the extending portion 36 of the key 2 is guided by the key guide 7, the extending portion 36 of the key 2 moves smoothly without the key 2 swinging sideways.
[0032]
At the same time, the upper fixing plate part 40 of the hammer holding part 38 provided below the extension part 36 of the key 2 pushes down the key contact part 29 of the hammer arm 3, so that the hammer arm 3 is centered on the hammer support shaft 31. Then, it turns clockwise in FIG. As a result, an action load corresponding to the weight of the weight 28 of the hammer arm is applied to the key 2. At this time, the key contact part 29 of the hammer arm 3 is held between the upper fixing plate part 40 and the lower locking part 41 of the hammer holding part 38 provided below the extension part 36 of the key 2. Therefore, the key contact portion 29 can rotate the hammer arm 3 while sliding between the upper fixing plate portion 40 and the lower locking portion 41, and the upper fixing plate portion 40 of the hammer holding portion 38 can be rotated. Since the key 2 is not elastically deformed, the turning operation of the key 2 is reliably transmitted to the hammer arm 3, whereby a key touch feeling similar to that of an acoustic piano can be obtained.
[0033]
When the key 2 rotates and the hammer arm 3 rotates, the switch pressing portion 35 of the key 2 presses the rubber switch 4 to turn on the rubber switch 4 as shown in FIG. The weight 28 of the hammer arm 3 comes into contact with the upper limit stopper 26 provided on the lower surface of the key holding portion 18 of the keyboard chassis 1, whereby the rotation of the hammer arm 3 and the key 2 is stopped. After that, since the hammer arm 3 rotates in the opposite direction due to the weight of the weight portion 28, the key 2 also rotates in the opposite direction as described above. The hammer arm 3 returns to the initial position shown in FIG. Also at this time, since the upper fixed plate portion 40 of the hammer holding portion 38 is not elastically deformed, the turning operation of the hammer arm 3 can be reliably transmitted to the key 2.
[0034]
As described above, in this keyboard device, the extension portion 36 is extended from the key 2 so as to protrude below the key 2, and the hammer holding the key contact portion 29 of the hammer arm 3 below the extension portion 36. The holding portion 38 is provided, and the hammer holding portion 38 is constituted by the upper fixed plate portion 4 which is not elastically deformed and the lower locking portion 41 which is elastically deformable. Is not elastically deformed and the key contact portion 29 of the hammer arm 3 is pressed down, so that even if the key 2 is strongly pressed, the turning operation of the key 2 can be reliably transmitted to the hammer arm 3. Even when the key contact portion 29 of the hammer arm 3 pushes up the key 2 at the time of key release, the upper fixed plate portion 40 of the hammer holding portion 38 is not elastically deformed, so that the turning operation of the hammer arm 3 is reliably transmitted to the key 2. can do. Therefore, the turning operation of the hammer arm 3 is not delayed with respect to the turning operation of the key 2 as in the prior art, and the operation of the key 2 can be reliably transmitted to the hammer arm 3, whereby the acoustic piano Key touch feeling similar to the above key touch feeling can be satisfactorily obtained.
[0035]
In addition, since the upper fixing plate portion 40 formed below the extension portion 36 of the key 2 at the lower portion of the hammer holding portion 38 is not elastically deformed, a load applied to the lower locking portion 41 at the time of key depression and key release. Can be reduced, thereby increasing the durability. Further, the lower locking portion 41 of the hammer holding portion 38 provided below the extension portion 36 of the key 2 has a structure that is elastically deformed. When releasing the key, the vibration of the hammer arm 3 can be absorbed so as not to be transmitted to the upper surface of the key 2, that is, the key pressing surface. In addition, when the hammer holding portion 38 holds the key contact portion 29 of the hammer arm 3, The lower locking portion 41 is elastically deformed along the distal end surface of the key contact portion 29 of the hammer arm 3 and gets over, and the lower locking portion 41 elastically recovers and locks the lower surface on the distal end side of the key contact portion 29. Therefore, the key contact portion 29 of the hammer arm 3 can be easily and reliably held between the upper fixing plate portion 40 and the lower locking portion 41 of the hammer holding portion 38.
[0036]
In this case, in particular, the projection 32 is formed at a lower portion of the tip end surface of the key contact portion 29 of the hammer arm 3 so as to protrude forward (to the right in FIG. 1) of the key 2. When the hammer holding portion 38 provided on the hammer arm 3 holds the key contact portion 29, the projection 32 provided on the key contact portion 29 of the hammer arm 3 forcibly pushes the lower locking portion 41 of the hammer holding portion 38. When the elastically deformed lower locking portion 41 climbs over the projection 32, the lower locking portion 41 is quickly elastically restored to securely lock the lower surface of the projection 32. Accordingly, the key contact portion 29 of the hammer arm 3 can be reliably held between the upper fixing plate portion 40 and the lower locking portion 41 of the hammer holding portion 38.
[0037]
The lower portion of the extension 36 of the key 2 protrudes below the key guide 7 of the keyboard chassis 1, and the hammer holding portion 38 is provided at the protruding lower portion. When the abutting portion 29 is held, the hammer holding portion 38 is exposed below the key 2, and the exposed hammer holding portion 38 and the key abutting portion 29 are easy to see. The contact portion 29 can be easily sandwiched and held, thereby improving the assembling workability.
[0038]
Furthermore, since the guide portion 37 into which the key guide 7 of the keyboard chassis 1 is inserted and guided is provided in the extension portion 36 located above the hammer holding portion 38, the key 2 can be prevented from swaying. . Therefore, when the hammer holding portion 38 holds the key contact portion 29 of the hammer arm 3, the key 2 does not swing, and the key contact portion 29 is easily inserted into the hammer holding portion 38. This also makes it possible to improve the assembling workability, and also to prevent the hammer arm 3 from swaying, so that the key 2 and the hammer arm 3 can be smoothly operated in the vertical direction, As a result, the key pressing operation can be performed well.
[0039]
[Second embodiment]
Next, a second embodiment of the keyboard device of the present invention will be described with reference to FIGS. The same parts as those in the first embodiment shown in FIGS.
In this keyboard device, the key contact portion 50 of the hammer arm 3 and the hammer holding portion 51 formed below the extending portion 36 of the key 2 have a different structure from the first embodiment. It has almost the same structure as the form. That is, as shown in FIGS. 8 to 10, the key contact portion 50 of the hammer arm 3 is made of an elastic material such as rubber, is formed in a rectangular plate shape in cross section, and its upper and lower surfaces are gently arcuate. Is formed on the curved surface.
[0040]
The hammer holding portion 51 includes an upper fixing plate portion 52 having the same structure as that of the first embodiment, and a pair of lower locking portions 53 provided on both sides of the lower surface of the upper fixing plate portion 52. . That is, as shown in FIGS. 10A to 10C, the pair of lower locking portions 53 includes a pair of arm portions 53 a that are suspended from both sides on the lower surface of the upper fixed plate portion 52, and each arm 53 a. The lower end of the portion 53a is formed of a locking piece 53b protruding in a direction facing each other, and is elastic in a direction in which the pair of arm portions 53a is pushed out along both side surfaces of the key contact portion 50 of the hammer arm 3. When each locking piece 53b is deformed and gets over both side surfaces of the key contact portion 50, each arm 53a is elastically restored, and each locking piece 53b elastically moves the lower surface of the key contact portion 50 from both sides. It is configured to be held.
[0041]
Next, a case where such a keyboard device is assembled will be described.
In this case, similarly to the first embodiment, the bottom plates 13 and 23 are attached to the bottom of the keyboard chassis 1 and the hammer arm 3 is arranged on the keyboard chassis 1. Also at this time, the weight portion 28 of the hammer arm 3 is inserted into the opening 21 of the key holding portion 18 of the keyboard chassis 1, and the key contact portion 50 is arranged below the key guide 7 of the keyboard chassis 1. In this state, the rotation support portion 30 is rotatably attached to the hammer support shaft 31 of the hammer support portion 11 of the keyboard chassis 1. After the switch board 17 is mounted on the support boss 16 provided in the middle part of the keyboard chassis 1, the key 2 is mounted on the keyboard chassis 1 from above.
[0042]
At this time, first, the key guide 7 of the keyboard chassis 1 is inserted into the guide portion 37 provided above the extension portion 36 of the key 2, and in this state, the hammer provided below the extension portion 36 of the key 2 is inserted. The key contact part 50 of the hammer arm 3 is inserted and held between the upper fixing plate part 52 of the holding part 51 and the pair of lower locking parts 53. That is, as shown in FIGS. 9 and 10A, the key contact portion 50 is made to correspond to the lower part of the lower locking portion 53 of the hammer holding portion 51, and the key 2 is pressed down in this state. Then, as shown in FIG. 10B, each locking piece 53b of the pair of lower locking portions 53 is pushed and spread by both side surfaces of the key contact portion 50, and thereby each of the pair of lower locking portions 53 is expanded. The arm portion 53a is elastically deformed along both side surfaces of the key contact portion 50. Then, as shown in FIG. 10C, when the key 2 is further depressed, the locking pieces 53b of the pair of lower locking portions 53 ride over both side surfaces of the key contact portion 50, and the pair of lower locking portions Each arm 53a of the portion 53 is elastically restored, and each locking piece 53b elastically holds the lower surface of the key contact portion 50 from both sides.
[0043]
As a result, the key contact portion 50 is sandwiched between the upper fixing plate portion 51 of the hammer holding portion 51 and the pair of lower locking portions 53. In this state, the key contact portion 50 and the lower fixing plate portion 51 are The locking portion 53 is slidably held between each locking piece 53b. Also at this time, since the key 2 is guided in the up and down direction without laterally swinging by the key guide 7 of the keyboard chassis 1, the hammer holding portion 51 reliably corresponds to the key contact portion 50 as in the first embodiment. It can be pushed down in the state where it is made. After that, the switch pressing portion 35 of the key 2 is made to correspond to the rubber switch 4 of the switch board 17, and the key mounting hole 33 at the rear end of the key 2 is inserted into the key support portion 19 of the keyboard chassis 1. It is rotatably attached to the shaft 34. Thereby, the key 2 and the hammer arm 3 are mounted on the keyboard chassis 1 so as to be rotatable in the vertical direction.
[0044]
As described above, in this keyboard device, in addition to having substantially the same operation and effect as the first embodiment, in particular, the hammer holding portion 51 elastically deforms along both side surfaces of the key contact portion 50 of the hammer arm 3 to get over. Since the pair of lower locking portions 53 are provided, when the key contact portion 50 of the hammer arm 3 is held between the upper fixing plate portion 52 of the hammer holding portion 51 and the pair of lower locking portions 53, The pair of lower locking portions 53 of the hammer holding portion 51 elastically deform along the both side surfaces of the key contact portion 50 of the hammer arm 3, respectively. The lower surface of the contact portion 50 can be locked from both sides. Therefore, the key contact portion 50 of the hammer arm 3 can be held between the upper fixing plate portion 52 of the hammer holding portion 51 and the pair of lower locking portions 53. It is possible to more reliably hold.
[0045]
In the second embodiment, the hammer holding portion 51 has a structure including a pair of lower locking portions 53. However, the present invention is not limited to this. For example, as in a modification shown in FIGS. The hammer holding portion 55 may have a structure in which one of the two side surfaces of the key contact portion 50 of the hammer arm 3 is provided with a lower engagement portion 56 on one side which is elastically deformed along only one of the sides and gets over. In this case as well, the lower locking portion 56 is provided with an arm portion 56a hanging down from one side on both sides of the lower surface of the upper fixed plate portion 52 and a lower end of the arm 56a to the other side portion of the upper fixed plate portion 52. The arm portion 56a is elastically deformed outward along one surface of the key contact portion 50 of the hammer arm 3 so that the lock piece 56b It is only necessary that the arm portion 56a be elastically restored and the locking piece 56b elastically hold the lower surface of the key contact portion 50 from the side by riding over the side surface. Even such a structure has substantially the same operation and effect as the second embodiment.
[0046]
In the first and second embodiments, the case where the hammer arm 3 is disposed on the keyboard chassis 1 has been described. However, the present invention is not limited to this, and the hammer arm 3 may be disposed on the lower side of the keyboard chassis. Can also be applied. In the keyboard chassis in this case, the mounting portion is formed high in the middle portion, a hammer support portion is formed on the lower surface of the mounting portion, and the key contact portion of the hammer arm 3 is mounted on the front leg of the mounting portion. Any structure may be used as long as openings 29, 50 and 55 are formed therein. Even in such a structure, the key contact portions 29, 50, 55 of the hammer arm 3 are made to correspond to the lower side of the key guide through the opening of the keyboard chassis. In this state, the hammer arm 3 is connected to the hammer support shaft of the hammer support. Since the hammer arm 3 is rotatably mounted on the keyboard chassis, the hammer arm 3 can be disposed below the keyboard chassis, so that the same operation and effects as those of the first and second embodiments can be obtained.
[0047]
【The invention's effect】
As described above, according to the present invention, a keyboard chassis, a plurality of keys arranged on the keyboard chassis so as to be vertically rotatable, and a plurality of keys arranged corresponding to the plurality of keys, respectively. In a keyboard device having a hammer arm that applies an action load to a key by being rotationally displaced in accordance with a key pressing operation, an extension portion is extended from the key so as to protrude below the key. The lower part has a hammer holding part consisting of an upper fixing plate part for holding one end of the hammer arm and an elastically deformable lower locking part, so that the hammer is held when a key is pressed and released. Since the upper fixed plate portion does not elastically deform, even when the key is pressed strongly, the key press operation can be transmitted to the hammer arm without delay, thereby providing the key for the acoustic piano. Touch feeling It is possible to obtain the key touch feeling that approximates well.
[0048]
In this case, the key is provided with an extended portion protruding below the key, and an elastically deformable lower locking portion for elastically holding one end of the hammer arm is provided below the extended portion. As a result, not only can the vibration of the hammer arm at the time of key pressing and key release be absorbed by the elastic deformation of the lower locking portion, but also the upper fixing plate portion of the hammer holding portion elastically deforms at the time of key pressing and key release The hammer holding part is exposed under the key, making it easy to see the hammer holding part, so that one end of the hammer arm can be easily connected to the hammer holding part. , Thereby improving the assembling workability.
[0049]
In addition, the lower locking portion of the hammer holding portion is elastically deformed along the distal end surface at one end portion of the hammer arm and gets over, thereby elastically holding the lower surface on the distal end side, thereby fixing the upper portion of the hammer holding portion. When holding the one end of the hammer arm between the plate portion and the lower locking portion, the lower locking portion elastically deforms along the distal end surface of the one end of the hammer arm and climbs over the lower surface of the distal end side. Since the lower locking portion elastically returns and locks, one end of the hammer arm can be easily and reliably held between the upper fixing plate portion and the lower locking portion of the hammer holding portion.
[0050]
In particular, a protrusion for elastically deforming the lower locking portion and overcoming the lower locking portion is provided at a lower portion of the distal end surface at one end of the hammer arm so as to protrude toward the distal end, so that the upper portion of the hammer holding portion is provided. When holding one end of the hammer arm between the fixed plate portion and the lower locking portion, the projection provided at one end of the hammer arm can forcibly elastically deform the lower locking portion, When the elastically deformed lower locking portion gets over the projection, the lower locking portion is elastically restored, and the lower surface of the projection can be reliably locked, thereby connecting one end of the hammer arm to the hammer holding portion. It can be reliably held between the upper fixing plate portion and the lower locking portion.
[0051]
In addition, the lower locking portion of the hammer holding portion elastically deforms over at least one of the two side surfaces of the one end of the hammer arm to get over, thereby elastically holding the lower surface of the one end of the hammer arm. Accordingly, when one end of the hammer arm is held between the upper fixing plate portion and the lower locking portion of the hammer holding portion, the lower locking portion extends along at least one of the two side surfaces of the one end of the hammer arm. When the lower engaging portion returns elastically and locks the lower surface of one end of the hammer arm, one end of the hammer arm is connected to the upper fixing plate portion and the lower engaging portion of the hammer holding portion. Can be easily and reliably held during the operation. In this case, if the hammer holding portion is provided with a pair of lower locking portions that are elastically deformed and ride over the both side surfaces of the one end of the hammer arm, the lower surface of the one end of the hammer arm is locked from both sides thereof. Therefore, one end of the hammer arm can be more securely held between the upper fixing plate portion and the lower locking portion of the hammer holding portion.
[0052]
Furthermore, a guide portion guided by a key guide provided on the keyboard chassis is provided at a position of the key extension portion located above the hammer holding portion, so that the extension portion of the hammer holding portion is provided. Since the guide portion is guided by the key guide of the keyboard chassis, the key can be prevented from swaying. For this reason, when holding the one end of the hammer arm between the upper fixing plate portion and the lower locking portion of the hammer holding portion, the key does not swing, so that the one end of the hammer arm can be easily moved to the hammer holding portion. The key and the hammer arm can be moved smoothly in the vertical direction, because they can be inserted correspondingly, which can also improve the workability of assembly and prevent the hammer arm from swaying sideways. The key depression operation can be performed satisfactorily.
[Brief description of the drawings]
FIG. 1 is a sectional view showing a first embodiment of a keyboard device of the present invention.
FIG. 2 is a cross-sectional view showing a state in which the key of FIG. 1 is depressed.
FIG. 3 is an exemplary sectional view showing a state in which a key is attached to the keyboard chassis of FIG. 1;
FIG. 4 is a sectional view of a main part showing a correspondence relationship between a key extension part and a hammer arm key contact part in the state of FIG. 3;
5 is a cross-sectional view of a main part showing a state in which the key is depressed in the state of FIG. 4 and the lower locking part of the hammer holding part is in contact with the protrusion of the key contact part.
FIG. 6 is a sectional view of a main part showing a state in which the key is further depressed in the state of FIG. 5 and the lower locking portion of the hammer holding portion is elastically deformed by the projection of the key contact portion.
7 is a cross-sectional view of a main part showing a state in which the key is further depressed in the state of FIG. 6 and the lower locking portion of the hammer holding portion has passed over the protrusion of the key contact portion.
FIG. 8 is a sectional view showing a second embodiment of the keyboard device of the present invention.
9 is an exploded sectional view of the hammer arm and the key of FIG.
10A and 10B show a process in which a hammer holding portion formed below a key extension portion in FIG. 9 holds a key contact portion of a hammer arm, and FIG. FIG. 4B is an enlarged sectional view of a main part showing a state in which the key is pressed down in this state and a key contact part is inserted between a pair of lower locking parts of the hammer holding part. FIG. 4C is an enlarged cross-sectional view of the main part, showing a state in which the key is further depressed and a pair of lower locking parts cross over both side surfaces of the key contact part and lock the lower surface of the key contact part. Sectional view.
FIG. 11 is a cross-sectional view of a key showing a modification of the hammer holding portion of the second embodiment.
12 shows a process of holding the key contact portion of the hammer arm on the hammer holding portion of the key in FIG. 11, and FIG. 12 (a) shows a state in which the hammer holding portion is made to correspond to above the key contact portion. (B) is an enlarged cross-sectional view of a main part showing a state in which the key is depressed in that state and the lower locking part of the hammer holding part is in contact with one side of the key contact part, and (c). FIG. 6 is an enlarged cross-sectional view of a main part showing a state in which the key is further depressed and the lower locking portion rides over one surface of the key contact portion and locks the lower surface of the key contact portion.
[Explanation of symbols]
1 keyboard chassis
2 keys
3 Hammer arm
4 Rubber switch
7 Key Guide
11 Hammer support
19 Key support
27 Arm body
28 weight
29, 50 Key contact part
30 Rotation support
36 Extension
37 Guide part
38, 51, 55 Hammer holding part
40, 52 Upper fixed plate
41, 53, 56 Lower locking part

Claims (5)

A keyboard chassis, a plurality of keys arranged on the keyboard chassis so as to be rotatable in the vertical direction, and arranged in correspondence with each of the plurality of keys, and are rotated and displaced in accordance with the key pressing operation of the keys. A keyboard device comprising: a hammer arm that applies an action load to the key;
An extension portion is extended from the key so as to protrude below the key, and an upper fixing plate portion for holding one end of the hammer arm at a lower portion of the extension portion and an elastically deformable lower member. A keyboard device provided with a hammer holding portion including a stop portion. The lower engaging portion of the hammer holding portion elastically deforms and rides over a distal end surface of the one end portion of the hammer arm to elastically hold the lower surface on the distal end side. Item 2. The keyboard device according to Item 1. A projecting portion for elastically deforming the lower engaging portion to get over the lower engaging portion is provided at a lower portion of the distal end surface of the one end portion of the hammer arm so as to protrude toward the distal end. Item 3. The keyboard device according to Item 2. The lower locking portion of the hammer holding portion is elastically deformed along at least one of the two side surfaces of the one end portion of the hammer arm to get over the lower surface, thereby elastically lowering the lower surface of the one end portion of the hammer arm. The keyboard device according to claim 1, wherein the keyboard device is held. A guide portion guided by a key guide provided on the keyboard chassis is provided at a position of the extension portion of the key that is located above the hammer holding portion. 5. The keyboard device according to any one of 4.

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