This application is based upon and claims the benefit of priority from the prior Japanese Patent Application No. 2017-054849, filed Mar. 21, 2017, the entire contents of which are incorporated herein by reference.
The present invention relates to a hammer unit for use in a keyboard instrument such as a piano, and a keyboard device including the hammer unit.
For example, a keyboard device is known which has a structure where keys are supported to be rotatable in a vertical direction by key supporting shafts on a keyboard chassis, and hammer members are provided on the undersurface of the keyboard chassis in a manner to be rotatable in the vertical direction, and rotated in response to key depression operations on the keys so as to apply action loads to the keys, as described in Japanese Patent Application Laid-Open (Kokai) Publication No. 2015-034853.
In this keyboard device, each hammer member includes a hammer arm, a weight section provided on one end of the hammer arm, a rotational center section provided in a middle portion of the hammer arm, and an interlocking section provided on the other end of the hammer arm so as to interlock with the key. In this case, the rotational center section is a shaft receiving section rotatably mounted on a supporting shaft in a hammer supporting section provided on the undersurface of the keyboard chassis.
In accordance with one aspect of the present invention, there is provided a hammer unit comprising: a plurality of hammer arms which are respectively operated in response to key depression operations on a plurality of keys; and a hammer connecting section which (i) has a length corresponding to array of the plurality of keys, (ii) is connected to the plurality of hammer arms to support the plurality of hammer arms in an arrayed state, and (iii) has mounting sections which are provided in a direction of the array in areas where the hammer arms are not connected, and by which the hammer connecting section is mounted to a keyboard chassis.
The above and further objects and novel features of the present invention will more fully appear from the following detailed description when the same is read in conjunction with the accompanying drawings. It is to be expressly understood, however, that the drawings are for the purpose of illustration only and are not intended as a definition of the limits of the invention.
Hereafter, a first embodiment of a keyboard device in which the present invention has been applied is described with reference to
This keyboard device includes a keyboard chassis 1 made of synthetic resin, a plurality of keys 2 arranged on this keyboard chassis 1 in a manner to be rotatable in a vertical direction, a plurality of hammer members 3 which are rotated in response to key depression operations on the plurality of keys 2 so as to apply action loads to the keys 2, and switch sections 4 which output ON signals in response to key depression operations on the plurality of keys 2, as shown in
The keyboard chassis 1 is arranged inside an instrument case (not shown). On a front end portion (a right end portion in
Also, in a substantially middle area of this keyboard chassis 1 in a front-rear direction (a left-right direction in
Also, on a rear end portion of the hammer placing section 7 of this keyboard chassis 1, a board mounting section 9 is provided to be one step lower than the hammer placing section 7, as shown in
Further, in a rear area of the keyboard chassis 1, that is, in an area behind the board mounting section 9, a key mounting section 11 is provided at a height substantially equal to an upper portion of the key guide section 6, as shown in
Also, in a rear end area of this keyboard chassis 1, a rear leg section 13 which supports the rear end of the keyboard chassis 1 is downwardly provided from an upper portion of the keyboard chassis 1 toward the bottom thereof, as shown in
The keys 2 include white keys 2a and black keys 2b as shown in
On a substantially middle portion of the key 2 in the front-rear direction (the left-right direction in
A front end portion (a right end portion in
Also, each switch section 4 is structured such that, when the bulging section 18a of the rubber switch 18 is pressed by the switch pressing section 16, the bulging section 18a is elastically deformed and a plurality of movable contact points provided therein respectively come in contact with a plurality of fixed contact points provided on the switch board 17 (both movable and fixed contact points are not shown) so as to output an ON signal, as shown in
Further, on a portion of the key 2 located in front (to the right in
The hammer members 3 each include a hammer arm 22 arranged corresponding to the lower side of the corresponding key 2, a weight section 23 provided on the rear side (the left side in
In this embodiment, the 88 hammer members 3 are arranged in parallel corresponding to the plurality of keys 2 arranged in parallel. Also, each hammer arm 22 includes a raised section 22a provided at the front end portion (the right end portion in
As shown in
In the weight section 23, a weight 23a made of metal is provided integrally with the hammer arm 22 by insert molding, as shown in
This elastic supporting section 24 is elastically deformed to be bent in the front-rear direction of the hammer arm 22 when the key contacting and sliding section 25 is pressed downward or when the hammer arm 22 is rotationally displaced by the weight of the weight section 23, and thereby supports the hammer arm 22 by a displacement action of rotating the hammer arm 22, or in other words, supports the hammer arm 22 with it being rotationally displaced in the vertical direction, as shown in
More specifically, this elastic supporting section 24 is provided such that its length in the array direction of the hammer arms 22 is equal to the width of the lateral plate section 22f on the upper side of the hammer arm 22, i.e., the length of the lateral plate section 22f in the array direction of the hammer arms 22, its thickness is smaller than the thickness of the lateral plate section 22f, and its height is lower than the height of the raised section 22a of the hammer arm 22, as shown in
As a result, the elastic supporting section 24 is structured such that it is elastically deformed to be bent in the front-rear direction of the hammer arm 22, and whereby its middle portion and the vicinity thereof serve as a plate spring-shaped hinge that is a rotational center when the key contacting and sliding section 25 is pressed downward or when the hammer arm 22 is rotationally displaced by the weight of the weight section 23, as shown in
The key contacting and sliding section 25 is provided projecting frontward (rightward in
In this embodiment, the hammer holding section 21 of the key 2 is provided on the lower portion of the hammer pressing section 20 of the key 2 in a manner to project in the array direction of the keys 2, and is slid in the front-rear direction of the key 2 in response to the elastic deformation of the elastic supporting section 24 with the key contacting and sliding section 25 coming in contact with its lower surface from below, as shown in
The hammer connecting section 26 has a long band plate shape extending along the array direction of the plurality of hammer members 3, and upper end portions of the plurality of elastic supporting sections 24 are integrally provided on the lower surface of the hammer connecting section 26, as shown in
Each hammer unit HU is mounted in the keyboard chassis 1 by the hammer connecting section 26 being mounted on the plurality of hammer mounting sections 8 on the undersurface of the hammer placing section 7 of the keyboard chassis 1 with the plurality of hammer members 3 being arranged in parallel and the plurality of hammer arms 22 being connected to one another by the hammer connecting section 26, as shown in
In this hammer unit HU, for example, a plurality of hammer members 3 for keys 2 corresponding to one octave are arranged in parallel and, in this state, the elastic supporting sections 24 on the plurality of hammer arms 22 are integrally provided on the hammer connecting section 26, as shown in
Also, this hammer unit HU is mounted in the keyboard chassis 1 by predetermined portions of the hammer connecting section 26 being attached to the plurality of hammer mounting sections 8 on the keyboard chassis 1 with screws 27, as shown in
Accordingly, the plurality of hammer mounting sections 8 shown in
In this hammer unit HU, except for the weights 23a of the weight sections 23 of the hammer members 3, the plurality of hammer arms 22, the plurality of weight sections 23, the plurality of elastic supporting sections 24, the plurality of key contacting and sliding sections 25, and the hammer connecting section 26 are all integrally formed of synthetic resin such as polyacetal (POM), polypropylene (PP), and ABS (Acrylonitrile Butadiene Styrene) resin, and unitized, as shown in
The plurality of hammer members 3 in this hammer unit HU are structured such that, by the hammer connecting section 26 being mounted on the plurality of hammer mounting sections 8 on the undersurface of the hammer placing section 7 with each key contacting and sliding section 25 of the plurality of hammer arms 22 being inserted into an opening section 19a provided in a front lowered section 19 in the hammer placing section 7 of the keyboard chassis 1, the plurality of hammer arms 22 are supported with them being rotationally displaceable in the vertical direction around the plurality of elastic supporting sections 24, as shown in
Also, the plurality of hammer members 3 in this hammer unit HU are structured such that, when the hammer connecting section 26 is mounted on the plurality of hammer mounting sections 8 provided on the undersurface of the hammer placing section 7, the plurality of key contacting and sliding sections 25 provided on the front end portions (the right end portions in
As a result, the plurality of hammer members 3 in the hammer unit HU are structured such that, in a normal state, the plurality of hammer arms 22 are rotationally displaced around the plurality of elastic supporting sections 24 in the counterclockwise direction by the weights of the plurality of weight sections 23, the rear ends (the left ends in
Also, the plurality of hammer members 3 in this hammer unit HU are structured such that, when the plurality of keys 3 are depressed from above and the key contacting and sliding sections 25 on the plurality of hammer arms 22 are pressed downward against the weights of the weight sections 23 on the plurality of hammer arms 22 by the hammer pressing sections 20 of the plurality of keys 2, the plurality of elastic supporting sections 24 are elastically deformed to be bent, and the plurality of hammer arms 22 are rotationally displaced around the plurality of elastic supporting sections 24 in the clockwise direction, as shown in
Further, the plurality of hammer members 3 in this hammer unit HU are structured such that, when the plurality of hammer arms 22 are rotationally displaced around the plurality of elastic supporting sections 24 in the clockwise direction against the weights of the weight sections 23 on the plurality of hammer arms 22, the rear ends of the plurality of hammer arms 22 on the weight section 23 side come in contact with the upper-limit stopper 15 provided on the undersurface of the key mounting section 11 of the keyboard chassis 1 and the rotational displacement of each hammer arm 22 in the clockwise direction is stopped, as shown in
Next, the mechanism of this keyboard device 1 is described.
First, in an initial state where the key 2 has not been depressed, when the elastic supporting section 24 of the hammer arm 22 is elastically deformed by the weight of the weight section 23 of the hammer member 3, the hammer arm 22 is rotationally displaced around the elastic supporting section 24 in the counterclockwise direction, and the rear end of the hammer member 3 on the weight section 23 side comes in contact with the lower-limit stopper 15 provided near the lower end of the rear leg section 13 of the keyboard chassis 1, as shown in
Here, the hammer holding section 21 on the hammer pressing section 20 of the key 2 is pressed upward by the key contacting and sliding section 25 on the front end (the right end in
Also, the switch pressing section 16 on the key 2 is moved upward to be away from the bulging section 18a of the switch section 4. Accordingly, the switch section 4 enters a free state where the bulging section 18a has bulged, and the plurality of movable contacts are moved away from a plurality of fixed contacts (both the movable and fixed contacts are not shown). As a result, the switch section 4 enters an OFF state.
In this state, when the key 2 is depressed, the key 2 is rotated around the key supporting shaft 12a of the key supporting section 12 in the clockwise direction, and the hammer holding section 21 on the hammer pressing section 20 presses the key contacting and sliding section 25 of the hammer member 3 downward, as shown in
Here, the switch pressing section 16 on the key 2 presses the bulging section 18a of the rubber switch 18 of the switch section 4. Accordingly, the bulging section 18a of the rubber switch 18 is elastically deformed, and the plurality of movable contacts sequentially come in contact with the plurality of fixed contacts (both the movable and fixed contacts are not shown) at time intervals. As a result, the switch section 4 outputs a switch signal.
When the key 2 is further rotated and the hammer member 3 is further rotationally displaced, the rear end (the left end in
Then, when a finger on the key 2 is released therefrom and the key 2 starts a key releasing movement, the hammer arm 22 of the hammer member 3 starts to be rotationally displaced around the elastic supporting section 24 on the hammer arm 22 in the counterclockwise direction by the weight of the weight section 23, an elastic return force of the elastic supporting section 24 of the hammer member 3, and an elastic return force of the bulging section 18a of the rubber switch 18 of the switch section 4, as shown in
Here, by the elastic supporting section 24 on the hammer arm 22 being elastically deformed by the weight of the weight section 23 on the hammer arm 22, the hammer arm 22 is further rotationally displaced around the elastic supporting section 24 in the counterclockwise direction. Then, the hammer holding section 21 on the hammer pressing section 20 is pressed upward by the key contacting and sliding section 25 on the front end (the right end in
As a result, the key 2 is rotated around the key supporting shaft 12a of the key supporting section 12 in the counterclockwise direction, and then restricted at its upper-limit position, as shown in
As described above, the hammer unit HU in this keyboard device includes the plurality of hammer members 3 including the plurality of hammer arms 22 which are operated in response to key depression operations on the plurality of keys 2 and the plurality of elastic supporting sections 24 which are provided on the plurality of hammer arms 22 and connected to the hammer connecting section 26. As a result, by the plurality of hammer members 3 being unitized, the assembling workability of the hammer members 3 is improved.
In the hammer unit HU of this embodiment, the plurality of elastic supporting sections 24 are provided on the plurality of hammer arms 22 in a manner to be elastically deformable. By the plurality of hammer arms 22 being displaced, the plurality of hammer arms 22 are rotationally displaced in response to key depression operations on the plurality of keys 2.
That is, each elastic supporting section 24 is elastically deformed and bent in the front-rear direction of the corresponding hammer arm 22 so as to support the hammer arm 22 by a displacement action of rotating the hammer arm 22, or in other words, so as to rotationally displace the hammer arm 22 in the vertical direction. As a result, the hammer arm 22 can be favorably rotationally displaced to be rotated in the vertical direction in response to a key depression operation on the corresponding key 2.
Also, in this hammer unit HU, the hammer connecting section 26 is arranged along the array direction of the plurality of hammer arms 22 and connects the plurality of hammer arms 22 to one another with them being arrayed. As a result of this structure, the plurality of hammer arms 22 can be connected to one another with them being arrayed in the array direction by the hammer connecting section 26, so that the plurality of hammer members 3 can be unitized and assembled into the keyboard chassis 1 at one time.
That is, in this hammer unit HU, the hammer arms 22 corresponding to, for example, one octave can be connected to one another with them being arrayed by the hammer connecting section 26. As a result of this structure, the hammer members 3 corresponding to one octave can be unitized and assembled at one time, which significantly improves the assembling workability and the productivity.
Also, in this hammer unit HU, except for the weights 23a of the weight sections 23 of the hammer members 3, the plurality of hammer arms 22, the plurality of weight sections 23, the plurality of elastic supporting sections 24, the plurality of key contacting and sliding sections 25, and the hammer connecting section 26 are all integrally formed of synthetic resin such as polyacetal (POM), polypropylene (PP), and ABS resin, whereby the number of components can be significantly reduced. In addition, since the hammer members 3 need not be individually manufactured, the productivity can be significantly improved.
Also, the hammer connecting section 26 in this hammer unit HU is mounted on the keyboard chassis 1 by the plurality of predetermined areas whose number is smaller than the number of the arrayed hammer arms 22 being attached thereto by a plurality of screws 27 each serving as a mounting member. As a result of this structure, the number of areas of the hammer connecting section 26 to be mounted by the plurality of screws 27 can be made smaller than the number of the arrayed hammer arms 22. Accordingly, the mounting of the hammer connecting section 26 on the keyboard chassis 1 can be simplified. As a result, the hammer connecting section 26 can be efficiently mounted on the keyboard chassis 1.
In this case, in the hammer connecting section 26, the mounting holes 26a into which the screws 27 are inserted can be provided, for example, every two arranged hammer arms 22. Accordingly, the mounting of the hammer connecting section 26 on the keyboard chassis 1 can be further simplified. As a result, the hammer connecting section 26 can be efficiently mounted on the keyboard chassis 1.
Further, in this hammer unit HU, the elastic supporting sections 24 of the plurality of hammer members 3 are provided projecting upward on the plurality of hammer arms 22, whereby upper and portions of the plurality of elastic supporting sections 24 can be connected to the hammer connecting section 26. Also, the hammer connecting section 26 is arranged above the plurality of hammer arms 22, and therefore can be easily and reliably mounted on the plurality of hammer mounting sections 8 provided on the undersurface of the hammer placing section 7 of the keyboard chassis 1.
Next, a second embodiment of a keyboard device in which the present invention has been applied is described with reference to
This keyboard device has substantially the same structure as that of the first embodiment except that mounting members 30 are included which mount, on the keyboard chassis 1, the hammer connecting section 26 in the hammer unit HU, as shown in
More specifically, each mounting member 30 includes an engagement hook 31 provided on the undersurface of the hammer placing section 7 of the keyboard chassis 1 and a locking section 32 provided in the hammer connecting section 26 so as to lock the engagement hook 31. The locking section 32 has a pair of locking holes 32a provided penetrating in the vertical direction in both side portions of the hammer connecting section 26 in the front-rear direction of the corresponding hammer arm 22.
The engagement hook 31 includes a fixing section 31a mounted on the undersurface of the hammer placing section 7, a pair of hook pieces 31b downwardly provided with them opposing each other on both side portions of the fixing section 31a in the front-rear direction of the hammer arm 22, and a pressing piece 31c downwardly provided on a middle portion of the fixing section 31a between the pair of hook pieces 31b, as shown in
This engagement hook 31 is structured such that, when the pair of hook pieces 31b is inserted into the pair of locking holes 32a of the locking section 32 provided in the hammer connecting section 26 from above the hammer connecting section 26 and the pressing piece 31c comes in contact with the upper surface of the hammer connecting section 26, the hammer connecting section 26 is pinched by each contacting section 31d of the pair of hook pieces 31b and the pressing piece 31c in its thickness direction (the vertical direction in
In this embodiment, as shown in
In this embodiment as well, in the hammer unit HU, the elastic supporting sections 24 on the hammer arms 22 are integrally provided on the hammer connecting section 26 with the plurality of hammer members 3 for keys 2 corresponding to, for example, one octave being arranged in parallel as in the case of the first embodiment. As a result, in the hammer unit HU, the plurality of hammer members 3 are integrally connected with them being arranged along the array direction of the keys 2.
Also, the locking sections 32 of the mounting members 30 are provided in a plurality of areas whose number is smaller than the number of the arrayed hammer arms 22. For example, as in the case of the first embodiment, they are provided every two hammer arms 22 and each of which is positioned between hammer arms 22, in the hammer connecting section 26. Accordingly, the engagement hooks 31 of the mounting members 30 are provided corresponding to the plurality of locking sections 32, on the undersurface of the hammer placing section 7.
The hammer unit HU in this keyboard device enables the hammer connecting section 26 to be simply and easily mounted on the hammer placing section 7 by the mounting members 30, which mount the hammer connecting section 26 on the keyboard chassis 1, including the plurality of engagement hooks 31 provided on the keyboard chassis 1 and the plurality of locking sections 32 provided in the hammer connecting section 26 so as to lock the plurality of engagement hooks 31, in addition to having the same function and effect as that of the first embodiment.
That is, in the hammer unit HU in this keyboard device, when the hammer connecting section 26 is to be assembled into the keyboard chassis 1, the hammer connecting section 26 where the plurality of hammer members 3 have been connected to one another with them being arranged in parallel can be simply and easily mounted on the hammer placing section 7 by the plurality of engagement hooks 31 on the hammer placing section 7 being inserted into the corresponding locking sections 32 in the hammer connecting section 26 with the hammer connecting section 26 being arranged on the undersurface of the hammer placing section 7 of the keyboard chassis 1.
In this embodiment, each engagement hook 31 includes the fixing section 31a mounted on the undersurface of the hammer placing section 7, the pair of hook pieces 31b downwardly provided with them opposing each other on both side portions of the fixing section 31a in the front-rear direction of the corresponding hammer arm 22, and the pressing piece 31c downwardly provided on the middle portion of the fixing section 31a between the pair of hook pieces 31b, and each locking section 32 includes the pair of locking holes 32a provided penetrating in the vertical direction in both side portions of the hammer connecting section 26 in the front-rear direction of the hammer arm 22. As a result of this structure, the hammer connecting section 26 can be simply mounted on the hammer placing section 7 by the engagement hooks 31 being merely inserted into the locking sections 32.
That is, in each mounting member 30, when the pair of hook pieces 31b of the engagement hook 31 is inserted into the pair of locking holes 32a of the locking section 32 in the hammer connecting section 26 from above the hammer connecting section 26, and the pressing piece 31c is brought into contact with the upper surface of the hammer connecting section 26, the contacting sections 31d of the pair of hook pieces 31b are pressed against the undersurface of the hammer connecting section 26. As a result, the hammer connecting section 26 can be reliably held with it being pinched in its thickness direction by each contacting section 31d of the pair of hook pieces 31b and the pressing piece 31c.
Also, in this hammer unit HU, the pair of reinforcement ribs 33 is provided along the array direction of the hammer arms 22, on both side portions of the hammer connecting section 26 in the front-rear direction of the hammer arm 22. These reinforcement ribs 33 enhance the strength of the hammer connecting section 26. As a result, the hammer connecting section 26 can be reliably and favorably prevented from bending and twisting in the array direction of the hammer arms 3.
In the above-described second embodiment, the hammer placing section 7 of the keyboard chassis 1 is provided with the engagement hooks 31, and the hammer connecting section 26 is provided with the locking sections 32. However, the present invention is not limited thereto. For example, the keyboard device may be structured such that the hammer placing section 7 of the keyboard chassis 1 is provided with the locking sections 32 and the hammer connecting section 26 is provided with the engagement hooks 31.
Next, a third embodiment of a keyboard device in which the present invention has been applied is described with reference to
This keyboard device has substantially the same structure as that of the first embodiment except that its hammer members 40 in the hammer unit HU have a structure different from that in the first embodiment, as shown in
Hammer arms 41 of these hammer members 40 differ in cross-sectional shape from the hammer members 22 of the first embodiment, as shown in
Also, an elastic supporting section 42 of each hammer member 40 is provided projecting downward on the undersurface of the corresponding lateral plate section 41b and positioned on the front side (the right side in
This elastic supporting section 42 is elastically deformed to be bent in the front-rear direction of the hammer arm 41 when the key contacting and sliding section 25 is pressed downward or when the hammer arm 41 is rotationally displaced by the weight of the weight section 23, and thereby supports the hammer arm 41 by a displacement action of rotating the hammer arm 41, or in other words, supports the hammer arm 22 with it being rotationally displaced in the vertical direction as shown in
That is, this elastic supporting section 42 is provided such that its length in the array direction of the hammer arms 41 is equal to the width of the lateral plate section 41b positioned on the underside of the hammer arm 41, i.e., the length of the lateral plate section 41b in the array direction of the hammer arms 41, its thickness is smaller than the thickness of the lateral plate section 41b, and its height is substantially equal to that of the elastic supporting section 24 in the first embodiment, as shown in
As a result, as in the case of the first embodiment, the elastic supporting section 42 is structured such that it is elastically deformed to be bent in the front-rear direction of the hammer arm 22, and whereby its middle portion and the vicinity thereof serve as a plate spring-shaped hinge that is a rotational center when the key contacting and sliding section 25 is pressed downward or when the hammer arm 41 is rotationally displaced by the weight of the weight section 23, as shown in
Also, the hammer members 40 include a hammer connecting section 43 which connects the plurality of hammer arms 41 to one another in the array direction of the hammer arms 41, as shown in
That is, this hammer connecting section 43 connects the plurality of hammer arms 41 to one another by the plurality of elastic supporting sections 42 being connected thereto with the plurality of hammer members 40 being arranged in parallel along the array direction of the keys 2, and thereby unitizes the hammer members 40, as shown in
In this hammer unit HU, the hammer connecting section 43 is mounted on lower end portions of a plurality of hammer mounting sections 44 provided on the undersurface of the hammer placing section 7 of the keyboard chassis 1, as shown in
Also, in this hammer unit HU, the elastic supporting sections 42 on the plurality of hammer arms 41 are provided integrally with the hammer connecting section 43 with the plurality of hammer members 40 for keys 2 corresponding to, for example, one octave being arranged in parallel, as shown in
Further, in this hammer unit HU, predetermined portions of the hammer connecting section 43 are attached to the lower ends of the hammer mounting sections 44 on the keyboard chassis 1 by the screws 27, as in the case of the first embodiment. In this embodiment, the hammer connecting section 43 has mounting holes (not shown) provided in plural areas, and the screws 27 are inserted thereinto. More specifically, the mounting holes are provided in plural areas whose number is smaller than the number of the arrayed hammer arms 41. For example, they are provided every two hammer arms 41, and each of which is positioned between hammer arms 41, as in the case of the first embodiment.
Accordingly, as with the first embodiment, the plurality of hammer mounting sections 44 are provided corresponding to the plurality of mounting holes (not shown) in the hammer connecting section 43, on the undersurface of the hammer placing section 7 of the keyboard chassis 1. As a result, the hammer unit HU is structured such that the plurality of screws 27 are inserted into the mounting holes of the hammer connecting sections 43 and screwed into the screw holes of the plurality of hammer mounting sections 44 on the hammer placing section 7 with the hammer connecting section 43 being arranged on the undersurfaces of the hammer mounting sections 44, whereby the plurality of hammer members 40 corresponding to, for example, one octave are mounted at one time.
In this hammer unit HU, except for the weights of the weight sections 23 of the hammer members 40, the plurality of hammer arms 41, the plurality of weight sections 23, the plurality of elastic supporting sections 42, the plurality of key contacting and sliding sections 25, and the hammer connecting section 43 are all integrally formed of synthetic resin such as polyacetal (POM), polypropylene (PP), and ABS resin, and unitized, as in the case of the first embodiment.
The plurality of hammer members 40 in this hammer unit HU are structured such that, when the hammer connecting section 43 is mounted on the plurality of hammer mounting sections 44 provided on the undersurface of the hammer placing section 7, the plurality of key contacting and sliding sections 25 provided on front end portions (right end portions in
As a result, the plurality of hammer members 40 in the hammer unit HU are structured such that, in a normal state, the plurality of hammer arms 41 are rotationally displaced around the plurality of elastic supporting sections 42 in the counterclockwise direction by the weights of the plurality of weight sections 23, the rear ends (the left ends in
Also, the plurality of hammer members 40 in this hammer unit HU are structured such that, when the plurality of keys 2 are depressed from above and the key contacting and sliding sections 25 on the plurality of hammer arms 41 are pressed downward against the weights of the weight sections 23 on the plurality of hammer arms 41 by the hammer pressing sections 20 of the plurality of keys 2, the plurality of elastic supporting sections 42 are elastically deformed to be bent, and the plurality of hammer arms 41 are rotationally displaced around the plurality of elastic supporting sections 42 in the clockwise direction, as shown in
Further, the plurality of hammer members 40 in this hammer unit HU are structured such that, when the plurality of hammer arms 41 are rotationally displaced around the plurality of elastic supporting sections 42 in the clockwise direction against the weights of the weight sections 23 on the plurality of hammer arms 41, the rear ends of the plurality of hammer arms 41 on the weight section 23 side come in contact with the upper-limit stopper 15 provided on the undersurface of the key mounting section 11 of the keyboard chassis 1 and the rotational displacement of each hammer arm 41 in the clockwise direction is stopped, as shown in
With the hammer unit HU in this keyboard device, the same function and effect as that of the first embodiment can be achieved. In addition, by the plurality of elastic supporting sections 42 being provided projecting downward on the plurality of hammer arms 41, the lower ends of the plurality of elastic supporting sections 42 can be connected to the hammer connecting section 43. Also, by the hammer connecting sections 43 being arranged below the plurality of hammer arms 41, the hammer connecting section 43 can be easily and reliably mounted on the plurality of hammer mounting section 44 provided on the undersurface of the hammer placing section 7 of the keyboard chassis 1, as with the first embodiment.
In the hammer unit HU in the above-described first or third embodiment, the hammer connecting section 26 or 43 has a long band plate shape extending along the array direction of the hammer arms 22 or 41. However, the present invention is not limited thereto, and a structure may be adopted in which reinforcement ribs similar to the reinforcement ribs 33 of the second embodiment are provided on both side portions of the hammer connecting section 26 or 43 in the front-rear direction along the array direction of the hammer arms 22 or 41.
Also, in the hammer unit HU in the above-described first or third embodiment, the hammer connecting section 26 or 43 connects hammer arms 22 or 41 corresponding to one octave. However, the present invention is not limited thereto, and a structure may be adopted in which hammer arms 22 or 41 corresponding to two octaves are connected to one another or about 10 hammer arms 22 or 41 are connected to one another.
Moreover, in the hammer unit HU in the above-described first or third embodiment, plural portions of the hammer connecting section 26 or 43 are mounted on the hammer placing section 7 of the keyboard chassis 1. These portions are located every two hammer arms 22 or 41. However, the present invention is not limited thereto, and a structure may be adopted in which portions of the hammer connecting section 26 or 43 located every other hammer arm 22 or 41, portions of the hammer connecting section 26 or 43 located every three hammer arms 22 or 41, or three portions of the hammer connecting section 26 or 43 on its end portions and middle portion are mounted.
Furthermore, in the hammer unit HU in the above-described first or third embodiment, the weight 23a of each weight section 23 is integrally molded with the corresponding hammer arm 22 or 41 by insert molding. However, the present invention is not limited thereto. For example, the weight 23a may be provided integrally with the hammer arms 22 or 41 by caulking processing or bonding. In a case where each hammer arm 22 or 41 is formed of synthetic resin with a high specific gravity so as to have a large wall thickness, the weights 23a are not necessarily required to be provided.
Still further, devices for acquiring the above-described various effects are not necessarily required to be structured as described above, and may be structured as follows.
A hammer unit including:
a plurality of hammer arms which are respectively operated in response to key depression operations on a plurality of keys; and
a hammer connecting section which (i) has a length corresponding to array of the plurality of keys, (ii) is connected to the plurality of hammer arms to support the plurality of hammer arms in an arrayed state, and (iii) has mounting sections which are provided in a direction of the array in areas where the hammer arms are not connected, and by which the hammer connecting section is mounted to a keyboard chassis.
The structure of Structural Example 1, in which each mounting section of the hammer connecting section is provided between two areas which are located in the direction of the array and to which two adjacent hammer arms are respectively connected.
The structure of Structural Example 1, in which each hammer arm includes a contacting section with which a key comes in contact in response to a key depression operation, a weight section which is moved in response to the key depression operation, and a supporting section which projects in a direction corresponding to an operation direction of the hammer arm,
in which the hammer connecting section is connected to respective supporting sections for the plurality of keys, and thereby supports the plurality of hammer arms with each hammer arm being spaced apart from an adjacent hammer arm, and
in which the mounting sections of the hammer connecting section are provided in a plurality of areas which are located in the direction of the array and in which the supporting sections are not provided.
The structure of Structural Example 3, in which the supporting section is provided to be positioned between the contacting section and the weight section of the hammer arm.
The structure of Structural Example 4, in which the hammer arm is rotated in response to the key depression operation such that the contacting section is moved downward and the weight section is moved upward with the supporting section as a center.
The structure of Structural Example 3, in which the plurality of supporting sections are provided on the plurality of hammer arms in a manner to be elastically deformable, and displace the plurality of hammer arms.
The structure of Structural Example 1, in which the plurality of hammer arms, the plurality of supporting sections, and the hammer connecting section are integrally formed of synthetic resin.
The structure of Structural Example 1, in which the mounting sections are provided on a plurality of predetermined portions of the hammer connecting section whose number is smaller than number of the plurality of arrayed hammer arms, and the mounting sections are mounted on the keyboard chassis by mounting members.
The structure of Structural Example 8, in which the mounting sections are screw holes, and the mounting members are screws.
The structure of Structural Example 8, in which the mounting sections are engagement hooks and the mounting members are locking sections which lock the engagement hooks, or the mounting members are engagement hooks and the mounting sections are locking sections which lock the engagement hooks.
The structure of Structural Example 3, in which the supporting section projects in a direction in which the hammer arm is operated.
The structure of Structural Example 11, in which the plurality of supporting sections are provided projecting upward on the plurality of hammer arms, and the hammer connecting section is arranged above the plurality of hammer arms.
The structure of Structural Example 11, in which the plurality of supporting sections are provided projecting downward on the plurality of hammer arms, and the hammer connecting section is arranged below the plurality of hammer arms.
The structure of Structural Example 1, in which the hammer connecting section includes reinforcement sections which inhibit the plurality of hammer arms from bending in the direction of the array of the plurality of hammer arms.
A keyboard device including:
the hammer unit of Structural Example 1;
the plurality of keys; and
the keyboard chassis.
An electronic keyboard instrument including:
the keyboard device of Structural Example 15; and
a sound emitting section which emits a sound in response to a key depression operation.
While the present invention has been described with reference to the preferred embodiments, it is intended that the invention be not limited by any of the details of the description therein but includes all the embodiments which fall within the scope of the appended claims.
Number | Date | Country | Kind |
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2017-054849 | Mar 2017 | JP | national |
Number | Name | Date | Kind |
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5406875 | Tamai | Apr 1995 | A |
5828015 | Coulon | Oct 1998 | A |
6075213 | Ichiro | Jun 2000 | A |
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