JP6610611B2 - Keyboard device and keyboard instrument - Google Patents

Description

  The present invention relates to a keyboard device used for a keyboard instrument such as a piano and a keyboard instrument including the keyboard device.

  For example, in a keyboard device such as a piano, as described in Patent Document 1, a wiper that rotates by pressing a key, a jack that is driven in accordance with the rotation of the wiper, and a drive that is driven by this jack And a hammer member that strikes a string, and these are provided corresponding to each of a plurality of keys.

JP 2002-258835 A

  This type of keyboard device has a configuration in which a hammer member is driven by a jack that is driven in accordance with a rotating operation of a whipen by a key pressing operation to hit a string. Before hitting, the upper limit stopper member of the silencer for stopping the operation of the hammer member is provided.

  The upper limit stopper member of such a keyboard device is constructed such that a single support shaft is installed over the entire length in the arrangement direction of a plurality of keys above the hammer member, and a plurality of arms corresponding to each of the plurality of keys on the support shaft. When the cushioning material that the plurality of hammer members come into contact with and separate from each other is delivered to the plurality of arm portions and the sound is silenced, the support shaft can be rotated to allow the plurality of hammer members to come into contact with each other. The cushion material is arranged at the position.

  However, in such a keyboard device, when the key is struck when performing silencing, the support member of the upper limit stopper member may be bent because the hammer member strongly contacts the cushion material of the upper limit stopper member. That is, since the support shaft is installed over the entire length in the arrangement direction of the plurality of keys, it is necessary to secure the strength by increasing the thickness of the support shaft, and there is a problem that the weight of the entire apparatus increases.

  Further, in such a keyboard device, it is necessary to provide a plurality of arm portions for holding the cushion material on the support shaft of the upper limit stopper member corresponding to each of the plurality of keys, so that the structure of the upper limit stopper member is complicated. There is also a problem that the production is troublesome.

  SUMMARY OF THE INVENTION Problems to be solved by the present invention are a keyboard device and a keyboard instrument including the keyboard device that can reduce the weight of the entire device with a simple structure and can reliably and well regulate the upper limit position of the hammer member. Is to provide.

According to the present invention , a hammer member that applies an action load to the key that is being operated by pressing according to a key pressing operation of the key, and a stopper that restricts the operating range of the hammer member are provided. A stopper rail, a support member for supporting the stopper rail, and a buffer member disposed between the stopper rail and the support member, wherein the buffer member is one of the support member and the stopper rail. This is a keyboard device having an opening with which an engagement protrusion provided on one side engages .

According to the present invention, it is possible to regulate the position of the wafer Nma member goodness good.

It is the top view which showed the keyboard apparatus in one Embodiment which applied this invention to the electronic keyboard musical instrument. It is an expanded sectional view in the AA arrow of the keyboard apparatus shown by FIG. FIG. 3 is an enlarged cross-sectional view of a main part illustrating a state in which a transmission member and a hammer member disposed above a key are coupled to each other by a linkage control unit in the keyboard device shown in FIG. 2. 3A and 3B show a part of each of the transmission member and the transmission holding member shown in FIG. 3, wherein FIG. 3A is an enlarged plan view thereof, and FIG. FIG. 4 is an enlarged view showing a transmission member and a transmission holding member shown in FIG. 3. 3 shows a part of each of the hammer member and the hammer holding member shown in FIG. 3, (a) is an enlarged plan view thereof, and (b) is an enlarged cross-sectional view of an essential part taken along the line CC. FIG. 4 is an enlarged view showing a hammer member and a hammer holding member shown in FIG. 3. 3 shows the interlocking control unit shown in FIG. 3, (a) is an enlarged sectional view taken along the DD arrow, (b) is an enlarged side view showing the interlocking projection, and (c) is the interlocking projection. It is the expanded side view which decomposed | disassembled and showed. FIG. 3 is an enlarged cross-sectional view of a main part showing a state when a key is pressed in the keyboard device shown in FIG. 2. It is the perspective view which showed the location which attached the upper limit stopper rail to the supporting member of the keyboard apparatus shown by FIG. 2 seeing from the rear side. It is the perspective view which decomposed | disassembled and showed the supporting member and upper limit stopper rail which were shown by FIG. It is an expanded sectional view in the EE arrow of the support member shown in Drawing 10, and an upper limit stopper rail.

Hereinafter, an embodiment in which the present invention is applied to an electronic keyboard instrument will be described with reference to FIGS.
As shown in FIGS. 1 and 2, the electronic keyboard instrument includes a keyboard device 1. The keyboard device 1 is incorporated in a musical instrument case (not shown). The keyboard device 1 includes a plurality of keys 2 arranged in parallel, and an action mechanism 3 that applies an action load to each key 2 in response to a key pressing operation of the plurality of keys 2.

  As shown in FIGS. 1 and 2, each of the plurality of keys 2 includes a white key 2a and a black key 2b. For example, 88 white keys 2a and black keys 2b are arranged in parallel. The plurality of keys 2 are supported so that their intermediate portions in the front-rear direction (left-right direction in FIG. 2) are rotatable in the vertical direction by the balance pins 4a, 4b, respectively, and are arranged in parallel on the base plate 5 in this state. ing.

  In this case, as shown in FIG. 2, cushion materials 6a and 6b on which the lower surfaces of the front end portions (the right end portion in FIG. 2) of the plurality of keys 2 come into contact with and separate from each other are provided on the base plate 5. 2 along the direction of arrangement. Also, on the base plate 5, cushion materials 7 are provided along the arrangement direction of the keys 2 so that the lower surfaces of the rear end portions (left end portions in FIG. 2) of the plurality of keys 2 come into contact with each other. It has been. Further, guide pins 8a and 8b are provided on the base plate 5 so as to stand upright to prevent the plurality of keys 2 from swinging in the arrangement direction.

  As shown in FIGS. 1 to 3, the action mechanism 3 includes a plurality of transmission members 10 that rotate in the vertical direction in response to a key pressing operation of the plurality of keys 2, and each rotation operation of the plurality of transmission members 10. Accordingly, a plurality of hammer members 11 that rotate in the vertical direction and apply an action load to each of the plurality of keys 2 are provided. In this case, the plurality of keys 2 are rotated counterclockwise about the balance pins 4a and 4b by the respective weights of the plurality of transmission members 10 and the respective weights of the plurality of hammer members 11, and each of the keys 2 is initialized. The key 2 is configured to be pushed up to an initial load.

  In addition, as shown in FIGS. 2 and 3, the action mechanism 3 holds a plurality of transmission holding members 12 that rotatably hold a plurality of transmission members 10 and a plurality of hammer members 11 respectively. A plurality of hammer holding members 13. The plurality of transmission holding members 12 are mounted on transmission support rails 14 arranged along the arrangement direction of the keys 2. The plurality of hammer holding members 13 are attached on hammer support rails 15 arranged along the arrangement direction of the keys 2. The transmission support rail 14 and the hammer support rail 15 are supported by a plurality of support members 16 and arranged above the plurality of keys 2.

  As shown in FIGS. 1 to 3, the plurality of support members 16 are erected and mounted on the base plate 5 in a state where the plurality of support members 16 are positioned at a plurality of predetermined positions in the entire length in the arrangement direction of the keys 2. . In this case, for example, a total of 88 keys 2 are arranged. In response to this, the plurality of support members 16 are arranged at both ends in the arrangement direction of the plurality of keys 2 and between, for example, each of the three keys 2 positioned for every 20 keys 2. . In other words, in this embodiment, the support members 16 are arranged at five positions along the entire length in the arrangement direction of the keys 2.

  The support member 16 is made of a hard synthetic resin such as ABS resin, and as shown in FIGS. 2 and 3, a base mounting portion 16a mounted on the base plate 5 and a base mounting portion 16a are integrally formed. And a bridge portion 16b. Thus, the support member 16 is arranged between the rear portions of the plurality of keys 2 in a state where the bridge portion 16b protrudes above the key 2 by attaching the base attaching portion 16a on the base plate 5. It is configured.

  In this case, as shown in FIGS. 2 and 3, the rear rail that supports the transmission support rail 14 is provided at the rear end lower portion of the bridge portion 16b, that is, the rear upper portion (left upper portion in FIG. 2) of the base mounting portion 16a. A mounting portion 16c is provided. Further, a front rail mounting portion 16d that supports the hammer support rail 15 is provided on the front upper portion (the upper right portion in FIG. 2) of the bridge portion 16b. Further, an upper limit stopper rail mounting portion 16e is provided on the upper rear side of the bridge portion 16b (upper left side in FIG. 2), and a board rail mounting portion 16f is provided on the upper portion of the bridge portion 16b.

  As shown in FIGS. 2 and 3, the transmission support rail 14 is formed in a rectangular tube shape having a rectangular cross section, and has a length extending over the entire length in the arrangement direction of the plurality of keys 2. The transmission support rail 14 is configured such that a predetermined portion in the arrangement direction of the keys 2 is attached on each rear rail attachment portion 16 c of the plurality of support members 16.

  As shown in FIGS. 2 and 3, a plurality of transmission holding members 12 and a plurality of lower limit stopper mounting portions 17 are mounted on the transmission support rail 14 along the arrangement direction of the keys 2. In this case, the plurality of lower limit stopper mounting portions 17 are made of a metal plate, and are attached to five locations on the transmission support rail 14 corresponding to the plurality of support members 16 in a state of protruding above the plurality of transmission holding members 12. ing.

  The transmission holding member 12 is made of a hard synthetic resin such as ABS resin. As shown in FIG. 4A and FIG. 4B, the plurality of shaft support portions 18 are, for example, about 10 on the main body plate 12a. It is integrally formed along the arrangement direction of the keys 2 in a state in which each key 2 is held. The shaft support portion 18 is configured such that the transmission member 10 is rotatably attached to prevent the transmission member 10 from being laterally touched.

  That is, as shown in FIGS. 4A and 4B, the shaft support portion 18 has a pair of guide walls 20 and a transmission holding shaft 21 formed between the pair of guide walls 20. doing. The pair of guide walls 20 are formed at the rear end portion (the left end portion in FIG. 4A) on the main body plate 12 a of the transmission holding member 12 so as to correspond to each of the plurality of transmission members 10.

  As shown in FIG. 4A, the pair of guide walls 20 are configured such that the transmission fitting portion 23 of the transmission member 10 is slidably sandwiched from both sides of a transmission fitting portion 23 described later of the transmission member 10. The guide part which guides so that rotation is possible is comprised. As shown in FIGS. 4 and 5, the transmission holding shaft 21 has a substantially round bar shape, and has a non-circular cross-sectional shape by notching both sides of the outer peripheral surface thereof.

  Further, as shown in FIGS. 2 to 4, the transmission holding member 12 has a regulating portion 19 that regulates the lateral contact of the transmission member 10 during packaging transportation. The restricting portion 19 is a pair of restricting walls formed on the front portion (the right side portion in FIG. 4A) of the main body plate 12 a of the transmission holding member 12 so as to correspond to the respective transmitting members 10. This restricting portion 19 is configured to guide the transmission member 10 in a state where the rear lower portion of the transmission member 10 is sandwiched, and to regulate the lateral deflection of the transmission member 10 during packaging transportation.

  The transmission member 10 is made of a hard synthetic resin such as ABS resin, and as shown in FIGS. 2 to 5, the hammer member 11 is rotated in the vertical direction by rotating in the vertical direction according to the key pressing operation of the key 2. The transmission main body 22 includes a transmission fitting portion 23 that is integrally formed with the transmission main body 22 and is rotatably attached to the transmission holding shaft 21 of the transmission holding member 12.

  As shown in FIGS. 2, 3, and 5, the transmission main body 22 is formed in a waffle shape. That is, as shown in FIG. 5, the transmission main body 22 includes a thin vertical plate portion 22 a, and a plurality of rib portions 22 b formed in a lattice pattern on the outer peripheral portion and both side surfaces of the vertical plate portion 22 a, These are formed in a waffle shape. In this case, the transmission main body portion 22 is configured such that the weight of the transmission member 10 is adjusted by the shape of the vertical plate portion 22a and the formation density of the plurality of rib portions 22b.

  As shown in FIGS. 2, 3, and 5, the transmission fitting portion 23 is formed in an inverted C shape as a whole and protrudes rearward from the rear end portion of the transmission main body portion 22. That is, as shown in FIG. 4A, the transmission fitting portion 23 is formed so that the thickness of the keys 2 in the arrangement direction is substantially the same as the length between the pair of guide walls 20 of the shaft support portion 18. The slidably inserted between the pair of guide walls 20.

  Further, as shown in FIG. 5, the transmission fitting portion 23 is formed with a fitting hole 23a for fitting the transmission holding shaft 21 of the transmission holding member 12 at the center thereof, and around the fitting hole 23a. An insertion port 23b into which the transmission holding shaft 21 is removably inserted is formed in a part, that is, the rear portion around the fitting hole 23a, and the transmission holding shaft 21 is inserted into the fitting hole 23a through the insertion port 23b. Thus, the transmission holding shaft 21 is configured to be rotatably attached.

  In this case, as shown in FIG. 5, the transmission fitting portion 23 raises the transmission member 10 above the transmission holding shaft 21 when the transmission holding shaft 21 is inserted into the fitting hole 23a through the insertion port 23b. Then, the insertion port 23b is made to correspond to the part where both sides of the transmission holding shaft 21 are cut out, and when the insertion port 23b is press-fitted into the transmission holding shaft 21 in this state, the insertion port 23b is slightly expanded by the transmission holding shaft 21. By doing so, the transmission holding shaft 21 is configured to be inserted and fitted into the fitting hole 23a.

  By the way, as shown in FIGS. 2 to 5, a thin engaging portion 24 that is regulated by the regulating portion 19 of the transmission holding member 12 is provided in the lower rear portion of the transmission main body portion 22 of the transmission member 10. ing. As shown in FIGS. 4 and 5, the engaging portion 24 has both side surfaces of the rear lower portion of the transmission main body portion 22 cut away.

  For this reason, as shown in FIGS. 4 and 5, the engaging portion 24 has a thickness that is substantially the same as that between the pair of restricting walls of the restricting portion 19. Thereby, the engaging part 24 is inserted between the pair of restricting walls of the restricting part 19 so as to guide the transmission member 10 so as to be rotatable, and to regulate the lateral deflection of the transmitting member 10 during packaging transportation. It is configured.

  Further, the transmission main body portion 22 of the transmission member 10 is formed such that a lower portion thereof protrudes toward the upper surface of the key 2 as shown in FIGS. A transmission felt 25 is provided at the lower end of the transmission main body 22. The transmission felt 25 is configured such that a capstan 26 provided on the upper rear side of the key 2 abuts from below.

  Accordingly, as shown in FIGS. 2 and 3, when the key 2 is depressed, the transmission member 10 is pushed up by the capstan 26 of the key 2 that contacts the transmission felt 25 from the lower side, thereby transmitting and holding the key. It is configured to rotate counterclockwise about the shaft 21. Further, the transmission main body portion 22 of the transmission member 10 is formed such that the front end upper portion is formed higher than the rear end upper portion, and the upper side portion is inclined downward (lower left in FIG. 2).

  As shown in FIGS. 2 to 5, a support portion 22 c is provided on the upper front end portion of the transmission main body portion 22 so as to protrude upward. That is, the support portion 22c is configured to move in the vertical direction along the side surface of the hammer member 11 without contacting the hammer member 11 described later. Further, an interlocking protrusion 28 of the interlocking control unit 27 described later is provided on the side surface of the support portion 22c.

  On the other hand, as shown in FIGS. 1 to 3, the hammer support rail 15 is formed in a rectangular tube shape with a rectangular cross section like the transmission support rail 14, and has a length over the entire length in the arrangement direction of the plurality of keys 2. Is formed. The hammer support rail 15 is configured such that a predetermined portion in the arrangement direction of the keys 2 is attached on each front rail attachment portion 16 d of the plurality of support members 16. On the hammer support rail 15, a plurality of hammer holding members 13 are attached along the arrangement direction of the keys 2.

  The hammer holding member 13 is made of a hard synthetic resin such as ABS resin. As shown in FIGS. 6 and 7, the shaft support portion 13b is, for example, 10 at the rear end portion of the rail-shaped main body plate 13a opened upward. It is integrally formed along the direction in which the keys 2 are arranged in a state where each of the keys 2 is provided. The shaft support portion 13b is configured such that the hammer member 11 is rotatably attached to prevent the hammer member 11 from sideways.

  That is, as shown in FIGS. 2, 3, 6, and 7, the shaft support portion 13 b includes a pair of guide walls 30, hammer holding shafts 31 formed between the pair of guide walls 30, and have. The pair of guide walls 30 are formed at the rear end portion (the left end portion in FIG. 6B) corresponding to each of the plurality of hammer members 11.

  As shown in FIGS. 6A and 6B, the pair of guide walls 30 is configured such that the hammer member 11 is slidably sandwiched from both sides of a hammer fitting portion 34 described later of the hammer member 11. The hammer fitting portion 34 is configured to rotatably guide the guide portion. As shown in FIG. 6B, the hammer holding shaft 31 has a substantially round bar shape. Like the transmission holding shaft 21, both sides of the outer peripheral surface thereof are notched so that the cross-sectional shape is noncircular. Is formed.

  The hammer member 11 is made of a hard synthetic resin such as ABS resin and has a hammer portion 32 and a hammer arm 33 as shown in FIGS. 6 and 7, and these are integrally formed. . The hammer portion 32 has an insulator-shaped vertical plate portion 32a, and a plurality of rib portions 32b are formed on the outer peripheral portion and both side surfaces thereof. In this case, the hammer portion 32 is configured such that the weight of the hammer member 11 is adjusted by the shape of the insulator-shaped vertical plate portion 32a and the formation density of the plurality of rib portions 32b.

  As shown in FIGS. 6 and 7, the hammer arm 33 has a horizontal plate portion 33a having a length in the front-rear direction that is substantially the same as that of the transmission member 10, and rib portions 33b are formed on the outer peripheral portion and both side surfaces thereof. It has been configured. A hammer fitting portion 34 that is rotatably attached to the hammer holding member 13 is formed at the front end portion (right end portion in FIG. 7) of the hammer arm 33.

  As shown in FIG. 7, the hammer fitting portion 34 is formed in a C shape as a whole like the transmission fitting portion 23, and is formed to protrude forward from the front end portion of the hammer arm 33. That is, as shown in FIG. 6A, the hammer fitting portion 34 is formed so that the thickness in the arrangement direction of the keys 2 is substantially the same as that between the pair of guide walls 30. It is comprised so that it may be slidably inserted in.

  Further, as shown in FIG. 7, the hammer fitting portion 34 is formed with a fitting hole 34a for fitting the hammer holding shaft 31 of the hammer holding member 13 at the center thereof, and one around the fitting hole 34a. An insertion port 34b into which the hammer holding shaft 31 is removably inserted is formed in the front portion around the fitting hole 34a, and the hammer holding shaft 31 is inserted into the fitting hole 34a through the insertion port 34b. Thus, the hammer holding shaft 31 is configured to be rotatably attached.

  In this case, as shown in FIG. 7, when the hammer holding shaft 31 is inserted into the fitting hole 34a through the insertion port 34b, the hammer fitting portion 34 moves the hammer holding member 13 forward of the hammer member 11 (FIG. 7). In this state, the insertion port 34b is made to correspond to the portions where both sides of the hammer holding shaft 31 are cut out, and when the insertion port 34b is press-fitted into the hammer holding shaft 31 in this state, The hammer holding shaft 31 is configured to be inserted and fitted into the fitting hole 34a by being slightly pushed and spread by the hammer holding shaft 31.

  That is, as shown in FIG. 3, the hammer holding member 13 is connected to the transmission member 10 by an interlock control unit 27 described later before the hammer member 11 is attached, so that the hammer fitting portion 34 in FIG. In order to make the insertion port 34b correspond to the hammer holding shaft 31, the hammer holding member 13 is tilted rearward and the hammer holding shaft 31 is inserted into the fitting hole 34a and fitted in this state. 15 is configured to be mounted on.

  Further, as shown in FIGS. 3 and 8, a mounting portion 33c is provided at the lower front end of the hammer arm 33 so as to protrude downward. That is, the attachment portion 33c is configured to face the side surface of the support portion 22c of the transmission member 10 and to move in the vertical direction along the side surface of the support portion 22c in this state. The mounting portion 33c is provided with a guide hole 29 for guiding an interlocking protrusion 28 of the interlocking control portion 27 described later.

  Further, as shown in FIGS. 2 and 3, the hammer arm 33 is configured to be regulated to the lower limit position, which is the initial position, when the lower end of the hammer arm 33 comes into contact with the lower limit stopper 35 from above. That is, the lower limit stopper 35 is formed of a cushion material such as felt.

  As shown in FIGS. 2 and 3, the lower limit stopper 35 is mounted on a lower limit stopper rail 36 supported by a plurality of lower limit stopper mounting portions 17 provided on the transmission support rail 14. As a result, the hammer member 11 is configured to be regulated to the initial position in a state where the lower end of the rear end of the hammer arm 33 is in contact with the lower limit stopper 35 from the upper side and is inclined downward.

  Further, as shown in FIG. 9, the upper end of the hammer arm 33 is configured such that its upper end position is regulated by abutting the upper end of the hammer arm 33 with the upper limit stopper 37 from below. That is, the upper limit stopper 37 is formed of a cushion material such as felt, like the lower limit stopper 35, and is attached to the lower surface of the upper limit stopper rail 38 attached to each upper limit stopper rail attachment portion 16e of the plurality of support members 16. Yes.

  Accordingly, as shown in FIG. 9, when the hammer arm 33 rotates clockwise around the hammer holding shaft 31 of the hammer holding member 13, the upper end of the hammer arm 33 is positioned at the upper limit stopper 37. The upper limit position is regulated by abutting on the upper side from below.

  In this case, as shown in FIGS. 2 and 3, the upper limit stopper rail mounting portion 16 e is provided so as to protrude upward from the support member 16 located above the rear portion of the hammer arm 33. That is, as shown in FIG. 12, the upper limit stopper rail mounting portion 16e includes an inclined portion 44a that is inclined from the upper portion of the rear end of the bridge portion 16b of the support member 16 toward the upper rear portion, and the rear end of the inclined portion 44a. It has a vertical portion 44b extending vertically upward from the upper portion, and an upper surface portion 44c extending horizontally from the upper end of the vertical portion 44b toward the front side.

  10 to 12, the upper limit stopper rail 38 is formed by bending a metal band plate into a substantially inverted Z-shaped cross section, and is disposed over the entire length of the plurality of keys 2 in the arrangement direction. Has been. That is, the upper limit stopper rail 38 includes a rail main body portion 45 that protrudes rearward from the vertical portion 44b of the upper limit stopper rail attachment portion 16e of the support member 16, and a vertical portion 44b of the upper limit stopper rail attachment portion 16e. And a rail body attachment portion 46 attached to the upper surface portion 44c.

  As shown in FIGS. 10 to 12, the rail body portion 45 is provided with a vertical portion 45 b on both sides of the horizontal portion 45 a to increase rigidity, and an upper limit stopper 37 is provided on the lower surface of the horizontal portion 45 a. It is configured. Further, the rail body mounting portion 46 includes a vertical portion 46a disposed on the vertical portion 44b of the upper limit stopper rail mounting portion 16e and a horizontal portion 46b disposed on the upper surface portion 44c of the upper limit stopper rail mounting portion 16e. ing.

  Further, as shown in FIGS. 10 to 12, a rail body attachment portion 46 of the upper limit stopper rail 38 is attached to the upper limit stopper rail attachment portion 16 e by a strength reinforcing portion 47. That is, as shown in FIG. 12, the strength reinforcing portion 47 is rearward in a direction (horizontal direction) perpendicular to the contact direction (vertical direction) of the hammer arm 33 to the vertical portion 44b of the upper limit stopper rail mounting portion 16e. And an engagement hole 47b provided on the vertical portion 46a of the rail body mounting portion 46 to be engaged with the engagement projection 47a. ing.

  For this reason, as shown in FIG. 12, the strength reinforcing portion 47 is engaged with the engagement protrusion 47a of the upper limit stopper rail attachment portion 16e inserted into the engagement hole 47b of the rail body attachment portion 46, The rail main body mounting portion 46 is configured to secure the mounting strength with respect to the upper limit stopper rail mounting portion 16e. Thereby, as shown in FIG. 9, when the hammer arm 33 comes into contact with the upper limit stopper 37 of the upper limit stopper rail 38 from the lower side, the strength reinforcing portion 47 causes the rail main body mounting portion 46 of the upper limit stopper rail 38 to move. It is configured to prevent turning up.

  Further, as shown in FIGS. 10 to 12, the rail body mounting portion 46 of the upper limit stopper rail 38 has its horizontal portion 46b disposed on the upper surface portion 44c of the upper limit stopper rail mounting portion 16e. The upper limit stopper rail mounting portion 16e is configured to be fixed to the upper surface portion 44c from above by a plurality of screws 48 as fastening members. In this case, a screw insertion hole 46 c is provided in the rail body mounting portion 46 of the upper limit stopper rail 38. A plurality of boss portions 44d having screw holes are provided on the upper portion of the upper limit stopper rail mounting portion 16e.

  In this case, a buffer member 49 is provided between the upper limit stopper rail mounting portion 16e and the rail body mounting portion 46, as shown in FIGS. The buffer member 49 is a sheet made of a low repulsion material, and is configured to be disposed from the vertical portion 44b to the upper surface portion 44c of the upper limit stopper rail mounting portion 16e.

  In this case, the buffer member 49 at a location corresponding to the vertical portion 44b of the upper limit stopper rail mounting portion 16e is substantially the same as the engagement hole 47b provided in the vertical portion 46a of the rail body mounting portion 46, as shown in FIG. An opening 49a having the same size is provided. The buffer member 49 at a location corresponding to the upper surface portion 44c of the upper limit stopper rail mounting portion 16e is provided with a plurality of screw insertion holes 49b corresponding to the plurality of boss portions 44d having screw holes.

  Furthermore, as shown in FIG. 12, the inclined portion 44a of the upper limit stopper rail mounting portion 16e and the rear end of the bridge portion 16b of the support member 16 are formed in a curved portion 50 that is gently curved. When the hammer arm 33 comes into contact with the upper limit stopper 37 of the upper limit stopper rail 38 from below, the bending portion 50 disperses the stress due to the impact so that the stress is not concentrated on a part of the bending portion 50. It is configured.

  A plurality of reinforcing ribs 51 are provided radially along the curved portion 50 on both surfaces of the bridge portion 16b of the support member 16 where the curved portion 50 is formed, as shown in FIGS. . The plurality of reinforcing ribs 51 ensure the strength of the bending portion 50 so that the bending portion 50 is not damaged by an impact when the hammer arm 33 comes into contact with the upper limit stopper 37 of the upper limit stopper rail 38 from below. It is configured.

  On the other hand, a switch pressing portion 39 is formed at the upper front end of the hammer arm 33 as shown in FIGS. A switch substrate 40 is disposed by a pair of substrate support rails 41 above the hammer arm 33 corresponding to the switch pressing portion 39. Each of the pair of board support rails 41 is a long plate having an L-shaped cross section, and has a length extending over the entire length of the key 2 in the arrangement direction.

  As shown in FIGS. 1 to 3, the pair of substrate support rails 41 are attached with their horizontal portions spaced apart from each other on the substrate rail attachment portions 16 f of the plurality of support members 16. The switch board 40 is divided into a plurality of pieces as shown in FIG. In other words, in this embodiment, the switch board 40 is divided into, for example, four parts and is attached on the pair of board support rails 41 with a length corresponding to about 20 keys 2.

  As shown in FIGS. 2 and 9, rubber switches 42 are provided on the lower surfaces of the switch boards 40, respectively. The rubber switch 42 has a structure in which an inverted dome-shaped bulging portion 42 a is formed on a rubber sheet long in the arrangement direction of the keys 2 so as to correspond to the plurality of hammer arms 33. Inside the bulging portion 42 a, a plurality of movable contacts 42 b that come into contact with and separate from a plurality of fixed contacts (not shown) provided on the lower surface of the switch substrate 40 are provided along the front-rear direction of the hammer arm 33. Is provided.

  As a result, as shown in FIG. 9, the rubber switch 42 is rotated clockwise about the hammer holding shaft 31 of the hammer holding member 13 from the lower side by the switch pressing portion 39 of the hammer arm 33. When pressed, the inverted dome-shaped bulged portion 42a is elastically deformed, and the plurality of movable contacts 42b sequentially contact the plurality of fixed contacts with time, thereby increasing the key pressing strength of the key 2. A corresponding switch signal is output. This switch signal is supplied to a sound source unit (not shown), and a musical sound corresponding to the key pressing strength of the key 2 is generated.

  By the way, the interlock control part 27 is provided in the interlocking protrusion part 28 provided in the support part 22c of the transmission member 10 and the attachment part 33c of the hammer member 11 as shown in FIGS. And a guide hole 29 for guiding. Accordingly, the interlock control unit 27 controls the rotation operation of the hammer member 11 accompanying the rotation operation of the transmission member 10 corresponding to the key 2 that has been pressed by the relative operation of the interlocking protrusion 28 with respect to the guide hole 29. Is configured to do.

  That is, as shown in FIGS. 5 and 8, the interlocking protrusion 28 of the interlocking control unit 27 includes a rod-shaped protrusion main body 28a and a cylindrical buffer portion 28b provided on the outer periphery of the protrusion main body 28a. ing. As shown in FIGS. 8A to 8C, the protrusion main body 28a is formed in a round bar shape.

  As shown in FIGS. 3 to 5, the protrusion main body 28 a is integrally formed in a state where the protrusion main body 28 a protrudes in the arrangement direction of the keys 2 from the front end upper portion of the support portion 22 c provided on the transmission main body portion 22 of the transmission member 10. And is configured to be movably inserted into a guide hole 29 provided in the attachment portion 33c of the hammer member 11. The protrusion main body 28a has a hook portion 28c formed in an annular shape on the outer periphery of the tip.

  The buffer portion 28b is made of a synthetic resin having elasticity such as urethane resin or silicone resin, and is formed in a substantially cylindrical shape as shown in FIGS. 8 (a) to 8 (c). The buffer portion 28b has an inner diameter that is substantially the same as the outer diameter of the projection main body 28a, and an axial length that is the axial length of the projection main body 28a, that is, the support portion 22c and the hook portion 28c. It is formed to the same length as that between them.

  Further, as shown in FIGS. 8A to 8C, a sliding projection 28d that comes into contact with the support portion 22c is formed in a hook shape at one end of the buffer portion 28b. Thus, when the buffer portion 28b is mounted on the outer periphery of the protrusion main body 28a, the hook-shaped sliding protrusion 28d abuts on the support portion 22c, and the end located on the opposite side is the hook portion 28c of the protrusion main body 28a. By being in contact with each other, it is configured to be attached to the protrusion main body 28a while being sandwiched between the support portion 22c and the hook portion 28c.

  On the other hand, the guide hole 29 of the interlocking control unit 27 is a long hole into which the interlocking protrusion 28 is movably inserted, as shown in FIGS. 3, 8 (a) and 9, and the hammer arm 33 of the hammer member 11. It is provided in the attachment part 33c provided in the lower front end. The guide hole 29 has a relative operation locus (when the transmission member 10 rotates about the transmission holding shaft 21 and the hammer member 11 rotates about the hammer holding shaft 31). That is, it is a long hole formed long along the movement locus.

  That is, as shown in FIGS. 3, 8A and 9, the guide hole 29 is provided such that its longitudinal center line is inclined downward (lower left in FIG. 3). In addition, the guide hole 29 has a length (hole width) in a direction orthogonal to the longitudinal direction of the guide hole 29 that is substantially the same as the outer diameter of the interlocking protrusion 28, that is, the outer diameter of the buffer portion 28b. Is formed in a length of about 1.5 to 2 times the outer diameter of the interlocking protrusion 28.

  In this case, as shown in FIGS. 3, 8 (a), and 9, the guide hole 29 is formed on the inner peripheral surface of the guide hole 29 when moving with the interlocking protrusion 28 inserted therein. The buffer portion 28b of the interlocking protrusion 28 is elastically contacted and moved, and the sliding protrusion 29d of the buffer portion 28b is elastically contacted with the side edge of the guide hole 29, that is, the side surface of the mounting portion 33c of the hammer member 11. Thus, by sliding, the mounting portion 33 c of the hammer member 11 is configured not to directly contact the support portion 22 c of the transmission member 10.

  As a result, as shown in FIGS. 3 and 9, the interlock control unit 27 causes the transmission member 10 corresponding to the key 2 that has been depressed to rotate, and the hammer member 11 accompanies the rotation of the transmission member 10. When the rotating operation is performed in conjunction with each other, the rotating operation of the hammer member 11 is controlled by the relative operation of the interlocking protrusion 28 with respect to the guide hole 29.

  That is, as shown in FIG. 3, the interlock control unit 27 rotates the transmission member 10 when the key 2 is pressed and the transmission member 10 rotates counterclockwise around the transmission holding shaft 21. Along with this, the interlocking protrusion 28 abuts on the front end upper part of the guide hole 29 and pushes up the front end upper part of the guide hole 29 so that the hammer member 11 is rotated clockwise around the hammer holding shaft 31. .

  Further, as shown in FIG. 9, the interlocking control unit 27 is configured such that when the hammer member 11 is pushed up, the interlocking protrusion 28 is movable along the guide hole 29, thereby pressing the key 2. If the force is weak and the rotation speed of the transmission member 10 and the rotation speed of the hammer member 11 are the same, the transmission member 10, the hammer member 11, and the interlocking protrusion 28 are in contact with the upper end of the guide hole 29. Are configured to rotate in conjunction with each other.

  Further, as shown in FIG. 9, the interlocking control unit 27 has a strong key pressing force, and if the rotation speed of the transmission member 10 and the rotation speed of the hammer member 11 are different from each other, By moving in the guide hole 29, the transmission member 10 and the hammer member 11 are individually rotated.

  Further, as shown in FIG. 9, the interlock control unit 27 is in a state in which the interlocking protrusion 28 is movable relative to the guide hole 29 when the key 2 that has been pressed is returned to the initial position. As a result, the transmission member 10 is configured to rotate clockwise about the transmission holding shaft 21 by its own weight, and the hammer member 11 is rotated counterclockwise about the hammer holding shaft 31 by its own weight. Yes.

  Further, as shown in FIG. 3, the interlocking control unit 27 is configured such that when the transmission member 10 and the hammer member 11 return to the initial positions, the interlocking protrusion 28 moves toward the upper front end of the guide hole 29. The interlocking projection 28 is configured to abut or approach the upper front end of the guide hole 29.

Next, the operation of the keyboard device 1 of such an electronic keyboard instrument will be described.
In this keyboard device 1, a key 2 is depressed to perform a performance. At this time, when the key 2 is depressed, the key 2 rotates clockwise in FIG. 3 around the balance pins 4a and 4b, and the capstan 26 of the key 2 pushes up the transmission member 10. Thereby, the transmission member 10 rotates counterclockwise in FIG. 3 around the transmission holding shaft 21 of the transmission holding member 12.

  Then, the rotation operation of the transmission member 10 is transmitted to the hammer member 11 by the interlock control unit 27, and the hammer member 11 is pushed up. That is, when the transmission member 10 rotates counterclockwise in FIG. 3, the interlocking protrusion 28 abuts on the upper front end of the guide hole 29 and pushes up the upper front end of the guide hole 29 as the transmission member 10 rotates. As a result, the hammer member 11 rotates clockwise in FIG. 3 around the hammer holding shaft 31 of the hammer holding member 13 to apply an action load to the key 2.

  That is, when the hammer member 11 rotates clockwise in FIG. 3 about the hammer holding shaft 31, an action load is applied to the key 2 by the moment of inertia of the hammer member 11. In this case, as shown in FIGS. 3 and 9, the hammer arm 33 is formed such that the length of the key 2 in the front-rear direction is substantially the same as that of the transmission member 10. 32 is formed.

  In this state, the hammer fitting portion 34 of the hammer arm 33 is rotatably attached to the hammer holding shaft 31, so that when the hammer member 11 rotates clockwise about the hammer holding shaft 31, the hammer member 11 generates a moment of inertia. A load due to this moment of inertia is applied as an action load to the key 2 via the interlock control unit 27 and the transmission member 10. As a result, a key touch feeling similar to that of an acoustic piano can be obtained.

  When the hammer member 11 rotates clockwise about the hammer holding shaft 31 as described above, the switch pressing portion 39 of the hammer arm 33 is formed in the reverse dome shape of the rubber switch 42 provided on the switch board 40 as shown in FIG. The bulging part 42a is pressed from below. As a result, the inverted dome-shaped bulging portion 42a is elastically deformed, and the plurality of movable contacts 42b in the bulging portion 42a sequentially contact the plurality of fixed contacts with a time interval.

  At this time, a switch signal corresponding to the depressed key 2 is output, and a musical sound is generated from a speaker (not shown). When the hammer member 11 further rotates clockwise about the hammer holding shaft 31, the rear end upper portion of the hammer arm 33 comes into contact with the upper limit stopper 37 from below, and the rotation of the hammer member 11 is restricted and stopped. .

  Thereafter, when the key release operation (return operation) in which the key 2 returns to the initial position is started, the transmission member 10 has its own weight while the interlocking projection 28 is movable relative to the guide hole 29. The hammer member 11 rotates counterclockwise by its own weight and returns to the initial position. As a result, the key 2 returns to the initial position, and the interlocking projection 28 of the interlocking control unit 27 comes into contact with or approaches the upper front end of the guide hole 29.

  By the way, in such a keyboard device 1, when the key 2 is pressed with a light force (weak force), the key 2 slowly rotates clockwise around the balance pins 4 a and 4 b, The stun 26 slowly pushes up the transmission member 10. Thereby, the transmission member 10 rotates slowly counterclockwise around the transmission holding shaft 21 of the transmission holding member 12. At this time, the interlocking protrusion 28 of the interlocking controller 27 slowly pushes up the upper front end of the guide hole 29.

  As a result, the hammer member 11 slowly rotates clockwise about the hammer holding shaft 31 of the hammer holding member 13 to apply an action load to the key 2. Then, the switch pressing portion 39 of the hammer member 11 presses the rubber switch 42 provided on the switch substrate 40 to perform the switching operation, and the rear end upper portion of the hammer member 11 comes into contact with the upper limit stopper 37 from the lower side. 11 is stopped.

  At this time, the interlocking protrusion 28 of the interlocking control unit 27 is kept in contact with the upper front end of the guide hole 29. In this state, when the key release operation (return operation) in which the key 2 returns to the initial position is started, the transmission member 10 is in a state in which the interlocking protrusion 28 of the interlocking control unit 27 is in contact with or close to the upper front end of the guide hole 29. The hammer member 11 rotates counterclockwise with its own weight and returns to the initial position, and returns the key 2 to the initial position.

  On the other hand, in such a keyboard apparatus 1, when the key 2 is pressed with a strong force, the key 2 rotates at a high speed clockwise around the balance pins 4a and 4b, and the capstan 26 of the key 2 Pushes up the transmission member 10 at a high speed. As a result, the transmission member 10 rotates at a high speed counterclockwise around the transmission holding shaft 21 of the transmission holding member 12. At this time, the interlocking protrusion 28 of the interlocking controller 27 pushes up the upper part of the front end of the guide hole 29 rapidly at a high speed.

  As a result, the hammer member 11 suddenly rotates at a high speed clockwise around the hammer holding shaft 31 of the hammer holding member 13 to apply an action load to the key 2. At this time, if the rotation speed of the hammer member 11 is higher than the rotation speed of the transmission member 10, the upper front end of the guide hole 29 of the interlock control unit 27 is separated from the interlock protrusion 28, and the interlock protrusion 28 is in the guide hole 29. The inside moves relatively toward the lower end of the rear end.

  Then, the switch pressing portion 39 of the hammer member 11 suddenly presses the rubber switch 42 provided on the switch substrate 40 to perform a switch operation, and the rear end upper portion of the hammer member 11 abruptly contacts the upper limit stopper 37 from below. . Therefore, the upper end of the hammer member 11 is repelled by the upper limit stopper 37.

  At this time, as shown in FIG. 9, since the interlocking protrusion 28 of the interlocking control unit 27 is relatively distant from the upper part of the front end of the guide hole 29, the hammer member 11 rotates counterclockwise around the hammer holding shaft 31. The front upper end of the guide hole 29 of the interlock control unit 27 abuts or approaches the interlocking protrusion 28. For this reason, the hammer member 11 stops at a position away from the upper limit stopper 37 or slightly rotates the transmission member 10 in the clockwise direction. Thereby, the rebound of the hammer member 11 is suppressed.

  When the key release operation (return operation) for returning the key 2 to the initial position is started, the interlocking projection 28 of the interlocking control unit 27 comes into contact with the upper front end of the guide hole 29 while being movable along the guide hole 29. In this state, the transmission member 10 rotates clockwise with its own weight to return to the initial position, and the hammer member 11 rotates counterclockwise with its own weight to return to the initial position, thereby returning the key 2 to the initial position.

  By the way, when the key 2 is pressed with a strong force as described above and the upper rear end of the hammer member 11 abruptly contacts the upper limit stopper 37 from the lower side, the rail body mounting of the upper limit stopper rail 38 is performed. Since the portion 46 is attached to the upper limit stopper rail attachment portion 16e by the strength reinforcing portion 47, the rail body attachment portion 46 of the upper limit stopper rail 38 does not turn up from the vertical portion 44b of the upper limit stopper rail attachment portion 16e.

  That is, the strength reinforcing portion 47 is engaged with an engaging protrusion 47a provided on the vertical portion 44b of the upper limit stopper rail attaching portion 16e inserted into an engaging hole 47b provided on the rail body attaching portion 46. As a result, when the hammer arm 33 strongly comes into contact with the upper limit stopper 37 of the upper limit stopper rail 38 from below, the rail body mounting portion 46 is prevented from turning up, and the impact by the hammer arm 33 is reliably received. be able to.

  For example, when the key 2 is hit or hit, the impact load applied to the upper limit stopper rail 38 by one hammer member 11 is 200 g or more, and about ten hammer members 11 are simultaneously applied to the upper limit stopper rail 38. The impact load is 2 kg or more. Even if such a large impact load is applied, the impact can be reliably received by the strength reinforcing portion 47.

  When the hammer arm 33 strongly contacts the upper limit stopper 37 of the upper limit stopper rail 38 from below, the vibration of the upper limit stopper rail 38 by the hammer arm 33 is absorbed by the buffer member 49, and the upper limit stopper rail mounting portion It is possible to prevent the vibration due to the impact from being transmitted to 16e, and to suppress the generation of abnormal noise due to the impact.

  In this case, the inclined portion 44a of the upper limit stopper rail mounting portion 16e and the rear end of the bridge portion 16b of the support member 16 are formed in a curved portion 50 that is gently curved, so that the hammer arm 33 is moved to the upper limit stopper rail 38. When strongly contacting the upper limit stopper 37 from below, the stress due to the impact can be dispersed by the bending portion 50, whereby the stress is concentrated on a part of the bending portion 50 and the bending portion 50 is damaged. There is nothing to do.

  Further, since the plurality of reinforcing ribs 51 are provided radially along the curved portion 50 on both surfaces of the bridge portion 16b of the support member 16 where the curved portion 50 is formed, the curved portion is formed by the plurality of reinforcing ribs 51. 50 can be reinforced. For this reason, the strength of the bending portion 50 can be secured, and when the hammer arm 33 strongly comes into contact with the upper limit stopper 37 of the upper limit stopper rail 38 from the lower side, the bending portion 50 is damaged by the impact. Can be prevented.

  When the keyboard device 1 performs a so-called continuous hitting operation in which one key 2 is continuously pressed, the key 2 is pressed once, the hammer member 11 is pushed up to reach the upper limit position, and the hammer While the member 11, the transmission member 10, and the key 2 return to the initial positions, the same key 2 is pressed again.

  At this time, the interlocking projection 28 of the interlocking control unit 27 can move along the guide hole 29. For this reason, even if the rotational speed of the hammer member 11 in the return direction and the rotational speed of the transmission member 10 in the return direction are the same speed or different speeds, the hammer member 11 and the transmission member 10 Are each returned to the initial position due to their own weight, and accordingly, the key 2 is also returned to the initial position. When the key 2 is pressed again during the returning operation of the key 2, the transmission member 10 in the middle of returning to the initial position is pushed up again by the capstan 26 of the key 2.

  Then, the transmission member 10 in the middle of returning rotates again counterclockwise around the transmission holding shaft 21. At this time, the interlocking protrusion 28 of the interlocking control unit 27 moves along the guide hole 29 to push up the upper front end of the guide hole 29. Thereby, the hammer member 11 in the middle of returning to the initial position rotates again clockwise around the hammer holding shaft 31, applies an action load to the key 2, and presses the rubber switch 42 to perform a switch operation.

  For this reason, when one key 2 is operated repeatedly, the return operation of the hammer member 11 and the return operation of the transmission member 10 are controlled by the relative movement of the interlocking protrusion 28 with respect to the guide hole 29 of the interlocking controller 27. . As a result, a continuous hitting operation in which one key 2 is continuously pressed can be improved, and the continuous hitting performance can be improved.

  As described above, according to the keyboard device 1 of the electronic keyboard instrument, a plurality of keys 2 are provided corresponding to each of the plurality of keys 2 arranged in parallel, and each of the plurality of keys 2 rotates in response to a key pressing operation. Of the transmission member 10, the plurality of hammer members 11 that are provided corresponding to each of the plurality of keys 2, rotate according to the rotation operation of the transmission member 10, and apply an action load to the key 2, and the transmission member 10. A plurality of interlock control units 27 for controlling the rotation operation of the hammer member 11 in accordance with the rotation operation by the relative operation of the interlock projections 28 of the transmission member 10 with respect to the guide holes 29 provided in the hammer member 11; Therefore, it is possible to obtain a key touch feeling similar to the key touch feeling of an acoustic piano by reducing the size and suppressing unnecessary movement of the hammer member 11 with a simple structure. That.

  That is, in the keyboard device 1 of the electronic keyboard instrument, when the transmission member 10 is rotated by pressing the key 2, the interlock control unit 27 rotates the hammer member 11 according to the rotation operation of the transmission member 10. Thus, an action load can be applied to the key 2, and the unnatural and unnecessary movement of the hammer member 11 is controlled by the movement of the interlocking projection 28 of the interlocking control part 27 relatively along the guide hole 29. can do.

  For example, the interlock control unit 27 is configured such that when the key 2 is pressed with a weak force, the interlocking protrusion 28 of the transmission member 10 is in contact with the upper front end of the guide hole 29 of the hammer member 11. Can be slowly pushed up and rotated, and when the key 2 returns to the initial position, the transmission member 10 and the hammer member 11 are brought to the initial position while the interlocking projection 28 is in contact with the upper front end of the guide hole 29. Can be returned.

  Further, the interlock control unit 27 is configured such that when the key 2 is pressed with a strong force, the interlocking protrusion 28 of the transmission member 10 is in contact with the upper front end of the guide hole 29 of the hammer member 11. Can be pushed up and rotated. At this time, when the hammer member 11 presses the rubber switch 42 and vigorously abuts against the upper limit stopper 37 and repels, the interlocking protrusion 28 is relatively moved along the guide hole 29 at the lower end of the guide hole 29. The guide hole 29 can be brought into contact with or approached to the lower end of the rear end.

  For this reason, the interlock control unit 27 is configured such that the hammer member 11 rotates toward the initial position earlier than the transmission member 10, but the rotation operation of the hammer member 11 is relative to the guide hole 29. Can be controlled by. That is, since the interlocking protrusion 28 can be relatively moved along the guide hole 29, the unnatural and unnecessary movement of the hammer member 11 due to the repelling of the hammer member 11 at the time of strong hitting is favorably suppressed. This can improve the keyboard performance.

  Further, the interlock control unit 27 is configured to move the hammer member 11 by the relative movement of the interlocking protrusion 28 with respect to the guide hole 29 of the interlock control unit 27 during a continuous striking operation in which one key 2 is continuously pressed. , And the return operation of the transmission member 10 can be controlled, and thus the continuous operation of continuously pressing one key 2 can be performed reliably and satisfactorily. it can.

  As described above, in the keyboard device 1, the interlock control unit 27 includes the interlocking protrusion 28 provided in the transmission member 10 and the guide hole 29 provided in the hammer member 11 to guide the interlocking protrusion 28. Therefore, the structure of the interlocking control unit 27 is simple, and the interlocking control unit 27 can be installed in a compact manner, so that the installation space for the interlocking control unit 27 can be minimized. The overall size can be reduced, and the interlocking control unit 27 can suppress the unnatural and unnecessary movement of the hammer member 11, so that a key touch feeling similar to that of an acoustic piano can be obtained. Can be obtained.

  In this case, the guide hole 29 of the interlocking control unit 27 is a long hole formed along the relative movement locus of the interlocking protrusion 28, so that the rotation speed of the transmission member 10 and the rotation speed of the hammer member 11 are increased. , The interlocking protrusion 28 can be moved relatively smoothly and satisfactorily along the guide hole 29, thereby favorably controlling the operation of the hammer member 11 at the time of keystroke. Therefore, the unnatural and unnecessary movement of the hammer member 11 can be suppressed.

  For this reason, even if the hammer member 11 vigorously abuts against the upper limit stopper 37 and is repelled, the interlocking protrusion 28 can be relatively moved along the guide hole 29, so that the hammer member 11 is unnatural. Unnecessary operations can be suppressed satisfactorily. Further, when the hammer member 11 rotates toward the initial position earlier than the transmission member 10, the interlocking protrusion 28 can be relatively moved along the guide hole 29. Can be controlled satisfactorily.

  In addition, the interlocking protrusion 28 of the interlocking control unit 27 includes a rod-like protrusion main body 28a and a buffering portion 28b provided on the outer periphery of the protrusion main body 28a. When moving relatively within 29, the buffer portion 28 b can be moved in elastic contact with the inner peripheral surface of the guide hole 29, and the interlocking protrusion 28 is located at one of both ends in the guide hole 29. Also when contacting, the buffer portion 28b can be elastically contacted with one of both ends in the guide hole 29, so that the generation of abnormal noise can be reliably and satisfactorily prevented.

  In this case, the buffer portion 28b includes a sliding projection 28d that slides elastically along the guide edge portion of the guide hole 29, so that the support portion 22c of the transmission member 10 provided with the interlocking projection portion 28 is provided. The sliding protrusion 28d can be disposed between the mounting portion 33c of the hammer member 11 in which the guide hole 29 is provided. For this reason, the support portion 22c of the transmission member 10 and the mounting portion 33c of the hammer member 11 are not in direct contact with each other. Therefore, when the interlocking projection portion 28 relatively moves in the guide hole 29, a difference occurs. Sound generation can be reliably and well prevented.

  Further, since the interlocking projection 28 is provided with a hook portion 28c on the outer periphery of the tip end of the projection main body 28a, the buffer portion 28b is sandwiched between the hook portion 28c and the support portion 22c of the transmission member 10. Thus, it can be reliably and satisfactorily attached to the outer periphery of the protrusion main body 28a. For this reason, when the interlocking projection part 28 moves relatively in the guide hole 29, the buffer part 28b can be prevented from coming out of the projection body 28a.

  Further, according to the keyboard device 1 of such an electronic keyboard instrument, the transmission support rails 14 that are disposed at a plurality of locations in the arrangement direction of the plurality of keys 2 and hold the plurality of transmission members 10 and the plurality of hammer members 11 are provided. The plurality of support members 16 to which the hammer support rail 15 to be held and the upper limit stopper rails 38 for regulating the upper limit positions of the plurality of hammer members 11 are respectively attached along the arrangement direction of the plurality of keys 2, and the plurality of support members 16 is provided with an upper limit stopper rail mounting portion 16e to which the upper limit stopper rail 38 is attached, a rail main body mounting portion 46 provided on the upper limit stopper rail 38 and attached to the upper limit stopper rail mounting portion 16e, and an upper limit stopper rail mounting portion. A strength reinforcing portion 47 for reinforcing the mounting strength of the rail body mounting portion 46 with respect to 16e. By being a simple structure, reducing the weight of the entire apparatus, and the upper limit position of the hammer members 11 can be reliably and satisfactorily regulated.

  That is, in the keyboard device 1 of the electronic keyboard instrument, when the upper limit stopper rails 38 are arranged over the entire length in the arrangement direction of the plurality of keys 2 by the plurality of support members 16, a plurality of locations of the upper limit stopper rails 38 are provided. Therefore, the upper limit stopper rail 38 can be reduced in weight with a simple structure by securing sufficient strength and significantly reducing the weight of the upper limit stopper rail 38. Can do.

  In the keyboard device 1, the strength reinforcing portion 47 can increase the mounting strength of the rail body mounting portion 46 of the upper limit stopper rail 38 with respect to the upper limit stopper rail mounting portion 16 e provided on the support member 16. Even if the plurality of hammer members 11 strongly come into contact with the upper limit stopper rail 38 by hitting 2, damage to the upper limit stopper rail mounting portion 16 e of the support member 16 due to the contact of the hammer member 11 can be reliably prevented. . Thereby, the weight of the entire apparatus can be reduced with a simple structure, and the upper limit position of the hammer member 11 can be reliably and well regulated.

  In this case, the strength reinforcing portion 47 is engaged by inserting an engaging protrusion 47a provided on the vertical portion 44b of the upper limit stopper rail attaching portion 16e into an engaging hole 47b provided on the rail body attaching portion 46. As a result, when the hammer arm 33 strongly contacts the upper limit stopper 37 of the upper limit stopper rail 38 from below, the rail body mounting portion 46 turns up with respect to the vertical portion 44b of the upper limit stopper rail mounting portion 16e. Therefore, the impact of the hammer arm 33 can be received reliably and satisfactorily.

  Further, the rail body mounting portion 46 of the upper limit stopper rail 38 has the horizontal portion 46b of the rail body mounting portion 46, which is an upper portion thereof, disposed on the upper surface portion 44c of the upper limit stopper rail mounting portion 16e, and in this state, the horizontal portion 46b The upper limit stopper rail 38 can be securely fixed to the upper limit stopper rail mounting portion 16e by being fixed to the upper surface portion 44c of the stopper rail mounting portion 16e from above with a plurality of screws 48 as fastening members.

  In this case, a plurality of boss portions 44d having screw holes are provided on the upper portion of the upper limit stopper rail mounting portion 16e, so that the horizontal portion 46b of the rail main body mounting portion 46 is connected to the upper surface portion of the upper limit stopper rail mounting portion 16e. Since the screw 48 can be screwed into the screw hole of the boss portion 44d from above the horizontal portion 46b of the rail body mounting portion 46 in the state of being disposed at 44c, the action mechanism 3 is placed in the instrument case (not shown). Even in the arranged state, the screw 48 can be easily attached and detached.

  Further, a sheet-like buffer member 49 made of a low-rebound material is provided between the upper limit stopper rail mounting portion 16e and the rail main body mounting portion 46, so that the hammer arm 33 can be connected to the upper limit stopper of the upper limit stopper rail 38. The shock received by the upper limit stopper rail 38 by the hammer arm 33 when abutting on the lower side of the upper limit stopper rail 38 can be absorbed by the buffer member 49. It is possible to prevent the noise from being transmitted to the rail mounting portion 16e, and to reliably suppress the generation of noise due to the impact.

  That is, since the buffer member 49 is disposed from the vertical portion 44b to the upper surface portion 44c of the upper limit stopper rail mounting portion 16e, the upper limit stopper rail mounting portion 16e and the rail body mounting portion 46 may be in direct contact with each other. In addition, when the upper limit stopper rail 38 is impacted by the hammer arm 33, vibration due to the impact can be reliably absorbed, and abnormal noise is generated between the upper limit stopper rail mounting portion 16e and the rail body mounting portion 46. Can be reliably prevented.

  Further, the inclined portion 44a of the upper limit stopper rail mounting portion 16e and the rear end of the bridge portion 16b of the support member 16 are formed in a curved portion 50 that is gently curved, so that the hammer arm 33 is connected to the upper limit stopper rail 38. When contacting the upper limit stopper 37 from the lower side, the stress due to the impact can be dispersed by the curved portion 50, whereby the stress concentrates on a part of the upper limit stopper rail mounting portion 16e, and the upper limit stopper rail It is possible to prevent the attachment portion 16e from being damaged.

  In this case, a plurality of reinforcing ribs 51 are provided radially along the curved portion 50 on both surfaces of the bridge portion 16 b of the support member 16 in which the curved portion 50 is formed. The portion 50 can be reinforced strongly, and thereby the strength of the curved portion 50 can be ensured. For this reason, when the hammer arm 33 comes into strong contact with the upper limit stopper 37 of the upper limit stopper rail 38 from below, the bending portion 50 can be prevented from being damaged by the impact, and the impact can be applied for many years. Even if it receives, it can prevent the curved part 50 from deteriorating.

  In the above-described embodiment, the strength reinforcing portion 47 is provided with the engagement protrusion 47a on the upper limit stopper rail attachment portion 16e, and the engagement hole 47b into which the engagement protrusion 47a is inserted and engaged with the rail body attachment portion 46. However, the present invention is not limited to this. For example, the strength reinforcing portion 47 is provided with an engaging projection on the rail body mounting portion 46 and is engaged by inserting the engaging projection into the upper limit stopper rail mounting portion 16e. The structure provided with the engaging hole may be sufficient.

  In the above-described embodiment, the case where the transmission member is configured to rotate is described. However, the present invention is not limited to this. For example, the force of pressing the key by being displaced (moved) in the vertical direction with the key pressing. May be transmitted to the hammer member 11.

As mentioned above, although one Embodiment of this invention was described, this invention is not restricted to this, The invention described in the claim and its equal range are included.
The invention described in the claims of the present application will be appended below.

(Appendix)
The invention according to claim 1 includes a plurality of keys, an action mechanism provided corresponding to each of the plurality of keys, and a support member that supports the action mechanism, and the action mechanism includes the key. A hammer member that applies an action load to the key that is being pressed, and a support member that is attached to the key that is being pressed to regulate the upper limit position of the operating range of the hammer member. An upper limit stopper having an upper limit stopper body, and the upper limit stopper is provided with a body attachment portion extending from the upper limit stopper body to the upper surface portion of the support member, and the body attachment portion is provided on the upper surface portion of the support member. The keyboard device is characterized by being attached.

  According to a second aspect of the present invention, in the keyboard device according to the first aspect, the upper limit stopper includes the upper limit stopper rail and the hammer member that rotates on the lower surface of the upper limit stopper rail according to a key pressing operation. A keyboard device provided with a cushioning material provided at a contact position.

  According to a third aspect of the present invention, in the keyboard device according to the second aspect, the support member is disposed at a plurality of positions between the keys, and an upper limit stopper is provided between the plurality of support members. The keyboard device is characterized in that a rail is attached.

  According to a fourth aspect of the present invention, in the keyboard device according to the third aspect, each of the plurality of support members is provided with an upper limit stopper rail mounting portion for mounting the upper limit stopper rail. Is a keyboard device characterized in that a rail body mounting portion for mounting the upper limit stopper rail is provided on the upper limit stopper rail mounting portion.

  According to a fifth aspect of the present invention, in the keyboard device according to the fourth aspect, the hammer member is brought into contact with one of the upper limit stopper rail mounting portion of the support member and the rail main body mounting portion of the upper limit stopper rail. An engagement projection provided to project in a direction orthogonal to the direction, an engagement hole provided on the other of the upper limit stopper rail attachment portion and the rail body attachment portion and engaged with the engagement projection, A keyboard device characterized by further comprising:

  According to a sixth aspect of the present invention, in the keyboard device according to the fourth aspect, the upper portion of the rail body mounting portion of the upper limit stopper rail is disposed above the upper limit stopper rail mounting portion of the support member. In this state, the upper part is fixed to the upper part of the upper limit stopper rail mounting part from above by a fastening member.

  A seventh aspect of the present invention is the keyboard device according to any one of the second to sixth aspects, wherein a buffer member is provided between the support member and the upper limit stopper rail. This is a keyboard device.

  According to an eighth aspect of the present invention, in the keyboard device according to any one of the fourth to seventh aspects, the upper limit stopper rail mounting portion of the support member protrudes toward the upper rear side of the support member. The keyboard device is characterized in that a portion where the upper limit stopper rail mounting portion is connected to the support member is formed in a gently curved portion.

  The invention according to claim 9 is the keyboard apparatus according to claim 8, wherein the support member is provided with a plurality of reinforcing ribs radially along the curved portion. is there.

  A tenth aspect of the invention includes the keyboard device according to any one of the first to ninth aspects, and a sound source unit that generates a musical sound in response to an operation of the key of the keyboard device. It is a keyboard instrument characterized by this.

DESCRIPTION OF SYMBOLS 1 Keyboard apparatus 2 Key 3 Action mechanism 10 Transmission member 11 Hammer member 12 Transmission holding member 13 Hammer holding member 14 Transmission support rail 15 Hammer support rail 16 Support member 16e Upper limit stopper rail attaching part 32 Hammer part 33 Hammer arm 37 Upper limit stopper 38 Upper limit Stopper rail 45 Rail body part 46 Rail body attachment part 47 Strength reinforcement part 47a Engagement protrusion 47b Engagement hole 48 Screw 49 Buffer member 50 Bending part 51 Reinforcement rib

Claims (7)

A hammer member that applies an action load to the key that is being pressed by operating in response to a key pressing operation;
A stopper rail provided with a stopper for restricting the operating range of the hammer member;
A support member for supporting the stopper rail;
A cushioning member disposed between the stopper rail and the support member;
With
The said buffer member is a keyboard apparatus which has an opening part which the engagement protrusion provided in any one of the said supporting member and the said stopper rail engages.   The keyboard apparatus according to claim 1, wherein the engagement protrusion is provided on a support member vertical portion on an upper side of the support member. 3. The keyboard device according to claim 2 , wherein the support member includes a support member inclined portion on a lower side of the support member vertical portion, and a support member upper surface portion extending horizontally from an upper end of the support member vertical portion. Keyboard device. 4. The keyboard device according to claim 3, wherein the stopper rail includes a stopper rail vertical portion having an opening with which the engagement protrusion engages, and a first horizontal portion extending in a first direction from an upper end of the stopper rail vertical portion. And the second opposite to the first direction from the lower end of the stopper rail vertical portion.
A second horizontal portion extending in the direction,
The said buffer member is a keyboard apparatus arrange | positioned between the said support member vertical part and the said support member upper surface part in the said support member, and the said stopper rail vertical part and the said 1st horizontal part in the said stopper rail.   The keyboard device according to claim 4, wherein the stopper is disposed below the second horizontal portion. 6. The keyboard device according to claim 4 , wherein the upper surface portion of the support member in the support member includes a first hole, the first horizontal portion in the stopper rail includes a second hole, and the first hole. And a keyboard device comprising a fixing member for fixing the support member and the stopper rail by inserting the second hole. A keyboard device according to any one of claims 1 to 6;
A sound source unit that generates a musical sound in response to an operation of the key of the keyboard device;
A keyboard instrument equipped with

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