EP1752966B1 - Electronic accordion - Google Patents
Electronic accordion Download PDFInfo
- Publication number
- EP1752966B1 EP1752966B1 EP20060118591 EP06118591A EP1752966B1 EP 1752966 B1 EP1752966 B1 EP 1752966B1 EP 20060118591 EP20060118591 EP 20060118591 EP 06118591 A EP06118591 A EP 06118591A EP 1752966 B1 EP1752966 B1 EP 1752966B1
- Authority
- EP
- European Patent Office
- Prior art keywords
- opening
- degree
- previously mentioned
- air pressure
- air
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Active
Links
- 238000001514 detection method Methods 0.000 claims description 19
- 230000003247 decreasing effect Effects 0.000 claims description 9
- 235000014676 Phragmites communis Nutrition 0.000 description 36
- 244000273256 Phragmites communis Species 0.000 description 18
- 239000000463 material Substances 0.000 description 3
- XAGFODPZIPBFFR-UHFFFAOYSA-N aluminium Chemical compound [Al] XAGFODPZIPBFFR-UHFFFAOYSA-N 0.000 description 2
- 229910052782 aluminium Inorganic materials 0.000 description 2
- 239000004411 aluminium Substances 0.000 description 2
- 230000007423 decrease Effects 0.000 description 2
- 238000010586 diagram Methods 0.000 description 2
- 238000004088 simulation Methods 0.000 description 2
- 229910000838 Al alloy Inorganic materials 0.000 description 1
- 230000000903 blocking effect Effects 0.000 description 1
- 238000004364 calculation method Methods 0.000 description 1
- 230000000994 depressogenic effect Effects 0.000 description 1
- 239000000428 dust Substances 0.000 description 1
- 239000010985 leather Substances 0.000 description 1
- 238000012986 modification Methods 0.000 description 1
- 230000004048 modification Effects 0.000 description 1
- -1 usually Substances 0.000 description 1
Images
Classifications
-
- G—PHYSICS
- G10—MUSICAL INSTRUMENTS; ACOUSTICS
- G10H—ELECTROPHONIC MUSICAL INSTRUMENTS; INSTRUMENTS IN WHICH THE TONES ARE GENERATED BY ELECTROMECHANICAL MEANS OR ELECTRONIC GENERATORS, OR IN WHICH THE TONES ARE SYNTHESISED FROM A DATA STORE
- G10H1/00—Details of electrophonic musical instruments
- G10H1/32—Constructional details
- G10H1/34—Switch arrangements, e.g. keyboards or mechanical switches specially adapted for electrophonic musical instruments
-
- G—PHYSICS
- G10—MUSICAL INSTRUMENTS; ACOUSTICS
- G10H—ELECTROPHONIC MUSICAL INSTRUMENTS; INSTRUMENTS IN WHICH THE TONES ARE GENERATED BY ELECTROMECHANICAL MEANS OR ELECTRONIC GENERATORS, OR IN WHICH THE TONES ARE SYNTHESISED FROM A DATA STORE
- G10H2220/00—Input/output interfacing specifically adapted for electrophonic musical tools or instruments
- G10H2220/155—User input interfaces for electrophonic musical instruments
- G10H2220/265—Key design details; Special characteristics of individual keys of a keyboard; Key-like musical input devices, e.g. finger sensors, pedals, potentiometers, selectors
- G10H2220/311—Key design details; Special characteristics of individual keys of a keyboard; Key-like musical input devices, e.g. finger sensors, pedals, potentiometers, selectors with controlled tactile or haptic feedback effect; output interfaces therefor
-
- G—PHYSICS
- G10—MUSICAL INSTRUMENTS; ACOUSTICS
- G10H—ELECTROPHONIC MUSICAL INSTRUMENTS; INSTRUMENTS IN WHICH THE TONES ARE GENERATED BY ELECTROMECHANICAL MEANS OR ELECTRONIC GENERATORS, OR IN WHICH THE TONES ARE SYNTHESISED FROM A DATA STORE
- G10H2230/00—General physical, ergonomic or hardware implementation of electrophonic musical tools or instruments, e.g. shape or architecture
- G10H2230/045—Special instrument [spint], i.e. mimicking the ergonomy, shape, sound or other characteristic of a specific acoustic musical instrument category
- G10H2230/245—Spint accordion, i.e. mimicking accordions; Electrophonic instruments with one or more typical accordion features, e.g. special accordion keyboards or bellows, electrophonic aspects of mechanical accordions, Midi-like control therefor
Definitions
- the present invention relates to an electronic accordion that is furnished with a keyboard, a bellows, and a sound source, and with which a musical tone is generated in conformance with the operation of the keyboard and the bellows.
- Patent Reference 1 Japanese Laid-Open Patent Application Publication (Kokai) Number 2002-366145 (Patent Reference 1), an electronic accordion is disclosed with which it is possible to simulate the musical tones that are produced by an acoustic accordion.
- United States Patent No. 4,196,650 discloses a valve system controlling an opening of the bellows of an electronic accordion depending on the number of keys depressed.
- U.S. Patent No. 3,250,843 describes a pressure sensor for an electronic accordion, detecting air pressure using two closed pistons arranged to compress a variable resistance element whenever the pressure in the bellows changes.
- the acoustic accordion has sound holes for each key with which air enters and exits and sound hole covers and reeds that vibrate due to the discharge of air or the intake of air that are furnished at each of the sound holes.
- the sound hole cover When a key is pressed down, the sound hole cover is opened, and when a key is released, the sound hole cover is closed. Accordingly, when a large number of keys are pressed down, many air holes link through to the outside, the resistance of the airflow is reduced, and it is possible to easily open and close the bellows.
- these reeds are each furnished with a check valve (reed leather) such that vibration does not occur during the intake of air for a reed that vibrates during air discharge and does not occur during the discharge of air for a reed that vibrates during air intake.
- a check valve reed leather
- these check valves are closed when the air pressure in the bellows is a pressure that is the same as atmospheric pressure and when the pressure in the bellows increases or decreases, open again, there is a phenomenon such as that in which the resistance of the air flow becomes higher for an instant.
- control is carried out in which the air valves with which the bellows has been furnished open and close in conformance with the operation of the keys of the keyboard.
- the present invention has been done in order to remedy the weaknesses described above and has as its object the provision of an electronic accordion with which an operating feeling can be obtained that closely resembles the operation of the bellows of an acoustic accordion.
- the electronic accordion cited in Claim 1 is, for one that has been furnished with a keyboard section that has a plurality of operators that prescribe the pitch of a musical tone and the generation and termination of the musical tone, and a bellows that intakes or discharges air, and an air pressure sensor that detects the air pressure in the bellows, and a sound source that forms a musical tone having the pitch that is prescribed by an operator of the previously mentioned keyboard section in conformance with the air pressure that has been detected by the air pressure sensor, furnished with an air valve that adjusts the degree of opening of an air hole with which the air is taken into the previously mentioned bellows or the air in the bellows is discharged, and degree of opening setting means that adjusts the degree of opening of the previously mentioned air valve in conformance with the air pressure that has been detected by the previously mentioned air pressure sensor, and control means that controls the previously mentioned air valve in conformance with the degree of opening that has been set by the previously mentioned degree of opening setting means.
- the electronic accordion cited in Claim 2 is, for the electronic accordion cited in Claim 1, one in which the previously mentioned degree of opening setting means is one that sets the degree of opening in conformance with the case in which the air pressure that has been detected by the previously mentioned air pressure sensor is greater than atmospheric pressure and the case in which the air pressure is less than atmospheric pressure.
- the electronic accordion cited in Claim 3 is, for the electronic accordion cited in Claim 1 or Claim 2, one that is furnished with pressed key state detection means that detects the state in which an operator of the previously mentioned keyboard section is being operated, and in which the previously mentioned degree of opening setting means is one in which the degree of opening of the previously mentioned air valve is set in conformance with the pressed key state that has been detected by the previously mentioned pressed key state detection means and the air pressure that has been detected by the previously mentioned air pressure sensor.
- the electronic accordion cited in Claim 4 is, for the electronic accordion cited in Claim 3, one in which the previously mentioned degree of opening setting means is one that closes the previously mentioned air pressure valve in those cases where the number of pressed keys that has been detected by the previously mentioned pressed key state detection means is zero and sets the degree of opening of the previously mentioned air valve to a minimum degree of opening greater than zero in those cases where the number of pressed keys is one or greater and, moreover, the air pressure that has been detected by the previously mentioned air pressure sensor has been detected to be equal to atmospheric pressure, and that sets the degree of opening greater than the previously mentioned minimum degree of opening in those cases where the number of pressed keys that has been detected by the previously mentioned pressed key state detection means is one or more and, moreover, the air pressure that has been detected by the previously mentioned air pressure sensor is a specified value.
- the electronic accordion cited in Claim 5 is, for the electronic accordion cited in Claim 4, one in which the previously mentioned degree of opening setting means is one in which the degree of opening of the previously mentioned air valve is altered in those cases where the previously mentioned air pressure has exceeded a specified value.
- the electronic accordion cited in Claim 6 is, for the electronic accordion cited in any of the Claims 3 through 5, one in which the accordion is furnished with speed setting means that sets the speed at which the degree of opening changes up to the degree of opening that has been set by the previously mentioned degree of opening setting means, and the previously mentioned control means is one that controls the previously mentioned air valve in conformance with the degree of opening that has been set by the previously mentioned degree of opening setting means and the speed that has been set by the previously mentioned speed setting means.
- the electronic accordion cited in Claim 7 is, for the electronic accordion cited in Claim 6, one in which the previously mentioned degree of opening setting means sets a first degree of opening in conformance with the pressed key state and the air pressure that has been detected by the previously mentioned air pressure sensor in those cases where the pressed key state has been detected to have changed by the previously mentioned pressed key state detection means, and sets a second degree of opening in those cases where the pressed key state is fixed and the air pressure that has been detected by the previously mentioned air pressure sensor has been detected to have changed, and the previously mentioned speed setting means sets a first speed that changes the degree of opening up to the first degree of opening that has been set by the previously mentioned degree of opening setting means, and, after the degree of opening of the air valve reaches the degree of opening that has been set by the previously mentioned degree of opening setting means, sets a second speed, and the previously mentioned control means controls the previously mentioned air valve at the first speed up to the first degree of opening during the time that the pressed key state that has been detected by the previously mentioned pressed key state
- the electronic accordion cited in Claim 8 is, for the electronic accordion cited in Claim 6 or 7, one in which the previously mentioned speed setting means is one that sets both the speed in those cases where the degree of opening is increased and the speed in those cases where the degree of opening is decreased.
- the electronic accordion cited in Claim 9 is, for the electronic accordion cited in Claim 8, one in which the previously mentioned speed setting means sets the speed in conformance with the air pressure that has been detected by the previously mentioned air sensor in those cases where the degree of opening is increased and sets a fixed speed in those cases where the degree of opening is decreased.
- the electronic accordion cited in Claim 10 is, for the electronic accordion cited in any of the Claims 6 through 9, one in which the previously mentioned speed setting means is one that sets the speed in conformance with the case in which the air pressure that has been detected by the previously mentioned air pressure sensor is greater than atmospheric pressure and the case in which the air pressure is less than atmospheric pressure.
- the degree of opening setting means is one that sets the degree of opening in conformance with the case in which the air pressure that has been detected by the air pressure sensor is greater than atmospheric pressure and the case in which the pressure is less than atmospheric pressure.
- the degree of opening setting means is one that closes the air pressure valve in those cases where the number of pressed keys that has been detected by the pressed key state detection means is zero and sets the degree of opening of the air valve to a minimum degree of opening greater than zero in those cases where the number of pressed keys is one or greater and, moreover, the air pressure that has been detected by the air pressure sensor has been detected to be equal to atmospheric pressure, and that sets the degree of opening greater than the minimum degree of opening in those cases where the number of pressed keys that has been detected by the pressed key state detection means is one or more and, moreover, the air pressure that has been detected by the air pressure sensor is a specified value.
- the degree of opening setting means is one in which the degree of opening of the air valve is altered in those cases where the value that is specified for the air pressure has been exceeded.
- the degree of opening setting means sets a first degree of opening in conformance with the pressed key state and the air pressure that has been detected by the air pressure sensor in those cases where the pressed key state has been detected to have changed by the pressed key state detection means, and sets a second degree of opening in those cases where the pressed key state is fixed and the air pressure that has been detected by the air pressure sensor has been detected to have changed
- the speed setting means sets a first speed that changes the degree of opening up to the first degree of opening that has been set by the degree of opening setting means, and, after the degree of opening of the air valve reaches the degree of opening that has been set by the degree of opening setting means, sets a second speed
- the control means controls the air valve at the first speed up to the first degree of opening during the time that the pressed key state that has been detected by the pressed key state detection means does not change, and, after the degree
- the speed setting means is one that sets both the speed in those cases where the degree of opening is increased and the speed in those cases where the degree of opening is decreased, there is the advantageous result that it is possible to set speeds that are different in those cases where the degree of opening increases and where the degree of opening decreases.
- the speed setting means sets the speed in conformance with the air pressure that has been detected by the air sensor in those cases where the degree of opening is increased and sets a fixed speed in those cases where the degree of opening is decreased.
- the vibration of the reeds starts when the keys or the performance buttons are pressed down.
- the amplitude gradually increases and in those cases where the air pressure in the bellows and atmospheric pressure differ greatly, the change in the amplitude is rapid.
- the key or performance button that is being pressed down is released, the flow path of the air is blocked without regard to the pressure of the bellows and it is possible to simulate this kind of condition.
- the speed setting means is one that sets the speed in conformance with the case in which the air pressure that has been detected by the air pressure sensor is greater than atmospheric pressure and the case in which the pressure is less than atmospheric pressure, it is possible to set the speed at which the air valve opens and closes in those cases where the bellows is expanded as well as in those cases where the bellows is compressed, there is the advantageous result that it is even more possible to produce an operating feeling that closely resembles that of the bellows of an acoustic accordion.
- Fig. 1 shows the exterior of the electronic accordion 1, which is a preferred embodiment of the present invention.
- the keyboard 2 and the plurality of register switches 4 are furnished on the right hand operating section that is operated with the right hand and the keys 3, which comprise a plurality of white keys and black keys, are furnished on the keyboard 2.
- the plurality of register switches 4, with which the timbres of the musical tones that have been performed by the keys 3 are set, are furnished behind the keyboard 2.
- a sensor is furnished for each key 3 and each register switch 4 and the state in which they are being operated is detected.
- the accompaniment section 7, which has the plurality of performance buttons 8 furnished, and the plurality of register switches 9, with which the timbres of the musical tones that are performed using the accompaniment section 7, are furnished on the left hand operating section that is operated with the left hand.
- a sensor is also furnished for each performance button 8 and each register switch 9 and the state in which they are being operated is detected.
- the performance information is sent to the sound source 24 (refer to Fig. 3 ) and a musical tone is generated or terminated by the sound source 24.
- the performance information is in a format that has been prescribed in accordance with the MIDI standard and, in those cases where a key 3 has been pressed down, a Note On message that comprises the status, which indicates the key that has been pressed down, the MIDI channel, the note number, which indicates the pitch of the key that has been pressed down, and a value that specifies the velocity value (hereinafter, referred to as the "Note On”), is formed.
- a Note Off message that comprises the status, which indicates the key that has been released, the MIDI channel, the note number, which indicates the pitch of the key that has been released, and a value that specifies the velocity value (hereinafter, referred to as the "Note Off”), is formed.
- the performance information that indicates the timbre that is set to the register switch 4 that has been turned on is sent to the sound source 24.
- the performance information that directs the timbre is a program change in accordance with the MIDI standards and comprises the status that indicates the timbre that is directed, the MIDI channel, and the program number.
- the bass or chords are assigned to the large number of performance buttons 8 of the accompaniment section 7 that are performed with the left hand and the timbres for these are selected and set by means of the register switches 9.
- the Notes On that correspond to the plurality of sounds that comprise the chord are sent to the sound source 24.
- the performance button 8 that directs the chord of C major has been pressed down the three Notes On that have the note numbers for which the letter notations are C, E, and G are sent to the sound source.
- a bellows 6 that is the same as that of an acoustic accordion is furnished between the right hand keyboard 2 and the left hand accompaniment section 7 and an air pressure sensor 5 is furnished that detects the pressure of the air inside the bellows 6.
- the air pressure inside the bellows 6 becomes greater than atmospheric pressure and the air in the bellows 6 is discharged via the air valve 14.
- the air pressure inside the bellows 6 becomes less than atmospheric pressure and the air from outside is taken into the bellows 6 via the air valve 14.
- a release button that is not shown in the drawing is furnished on the left hand side and a valve to mechanically release the bellows 6 can be operated no matter what state the air valve 14 is in. Since in those cases where the air valve 14 is closed and a key 3 or a performance button 8 has not been pressed down, the opening and closing of the bellows 6 cannot be done, a valve that mechanically releases the bellows 6 has been furnished separately and a release button has been furnished that opens that valve. This is something that can be used in those cases where the bellows 6 is opened or closed in any position and is operated, in particular, in those cases where the performance has ended and the bellows 6 is then closed.
- the MIDI channel is set to 1
- the MIDI channel of the chord that is generated in those cases where the accompaniment section 7 has been operated is set to 2
- the MIDI channel of the bass sound is set to 3.
- the air pressure in the bellows 6 is detected by the air pressure sensor 5 and the MIDI standard control change that directs the volume is used.
- the control change is transmitted for all of the MIDI channels that are set to the keyboard 2 and the accompaniment section 7.
- the electrical control circuit 12 and the battery 11 that supplies power to the electrical control circuit 12, the speaker 26, the air hole 19 with which the air in the bellows 6 is taken in or discharged, and the air valve 14 that controls the flow path of the air between the air hole 19 and the bellows 6 are furnished inside the right hand keyboard 2.
- Fig. 2 shows the details of the air valve 14
- Fig. 2(a) is an oblique view drawing that shows the exterior of the air valve 14
- Fig. 2(b) is a cross-section drawing that shows the interior of the air valve 14.
- the bellows 6 and the air valve 14 are linked by the air pipe 13
- the air valve 14 has the flow path 15 in its interior
- the air valve 14 is linked to the air hole 19.
- the air hole 19 is furnished with a filter (not shown in the drawing) that is formed from a net and felt and the like inside the net so as not to suck in dirt and dust.
- the throttle 16 which opens and closes the flow path 15 that is circular in cross-section, is disposed so that it is free to rotate with the diameter in the vertical direction of the circular flow path 15 as the axis.
- the throttle 16 is formed from a disk that follows along the inner circumference of the circular flow path 15.
- Fig. 2(b) shows a state in which the valve has been rotated roughly 45 degrees.
- the shaft of the throttle 16 is connected to the shaft of the pulse motor 17 and it is possible to drive the throttle 16 to a specified angle by inputting a single pulse to the pulse motor 17 in the opening direction or the closing direction.
- Fig. 3 is a block diagram that shows the electrical configuration of the electronic accordion 1.
- the electronic accordion 1 comprises the CPU 21, the ROM 22, the RAM 23, the pulse motor 17, the keys 3 and performance buttons 8, the register switches 4 and 9, the air sensor 5, the sound source 24, the amp 25, and the speaker 26.
- the CPU 21, the ROM 22, the RAM 23, the sound source 24, and the amp 2.5, are formed into the electrical control circuit I2.
- the CPU 21 is a central processing unit and executes each of the various programs that are stored in the ROM 22.
- the ROM 22 stores the control programs and the fixed data that are referred to when those programs are executed.
- In the fixed data are set such things as the timbre parameters that are set by the timbres that have been assigned to each of the register switches 4 and 9 and the like and, for each timbre, how many reeds produce sounds for one note and the like is set.
- a timer is built into the CPU 21 and is configured such that when a time that has been set is clocked, an interrupt is generated by the CPU 21.
- the RAM 23 possesses areas that store each of the required areas, flags, and the like that are each of the various register groups store when the CPU 21 executes the control programs and is a memory that can be accessed and be overwritten randomly.
- the sound source 24 generates or terminates a musical tone in conformance with the performance information such as the Note On or the Note Off and the like that are sent from the CPU 21.
- the sound source has a plurality of sound production channels and can generate a plurality of musical tones at the same time.
- the musical tone signal that is generated by the sound source 24 is amplified by the amp 25 and emitted as sound from the speaker 26.
- Fig. 4 is a flowchart that shows the main processing that is executed by the CPU 21. This processing is carried out repeatedly from when the power to the electronic accordion 1 is turned on until the power is turned off.
- S1 the initial settings are carried out (S1).
- a flag is set to "pressure.”
- the key degree of opening and the pressure degree of opening are set in those cases where a key 3 or a performance button 8 has been operated and the pressure degree of opening is set in those cases where the pressure in the bellows 6 has changed.
- the degree of opening of the air valve 14 is first controlled so as to arrive at the key degree of opening and after the key degree of opening has been arrived at, is controlled so as to arrive at the pressure degree of opening.
- the flag is set to "key” and in those cases where the control is carried out so as to arrive at the pressure degree of opening, the flag is set to "pressure.”
- the current degree of opening and the opening number are set to 0.
- the opening number here simulates the number of sound holes that are opened by the operation of the keys 3 or the performance buttons 8 and if one key 3 of the keyboard 2 is pressed down and the timbre that has been selected by the register switch 4 is one that uses one reed, the opening number is increased by 1. If the timbre that has been selected is one that uses two reeds, the opening number is increased by 2.
- the opening number is increased by 3 and if the timbre is one that uses two reeds, the opening number is increased by 6.
- Fig. 5 through Fig. 8 are flowcharts that show the air valve control processing, which is processing in which the degree of opening of the air valve 14 and the speed up to that degree of opening is set in conformance with the operation of the keys 3, the performance buttons 8, and the bellows 6.
- Fig. 5 shows the processing in which the degree of opening is set in conformance with the operation of a key 3 or a performance button 8 and
- Fig. 6 shows the processing in which the degree of opening is set in conformance with the operation of the bellows 6.
- Fig. 7 and Fig. 8 show the processing in which the speed for the opening and closing of the air valve 14 from the current degree of opening to the degree of opening that has been newly set is controlled by a timer interrupt.
- the degree of opening is made the value in which the opening number is multiplied by the opening percentage (S25).
- the opening percentage is the degree of opening that corresponds to the air pressure for each opening number and is stored in a table and the like that corresponds to the air pressure.
- the degree of opening is made 100 (S27).
- the key degree of opening is set in conformance with the value of the degree of opening referring to the step table and the pressure degree of opening is set to the key degree of opening (S28).
- the step table is one with which the degree of rotation of the throttle 16 of the air valve 14 is set in conformance with the degree of opening.
- the degree of rotation of the throttle 16 is proportional to the number of pulses that are supplied to the pulse motor 17, but since the degree of rotation of the throttle 16 is not proportional to the facility of the flow of the air (the airflow for the case in which the air pressure is fixed), this is a table with which the number of pulses that are supplied to the pulse motor 17 are converted in conformance with the degree of opening so as to make the degree of opening and the facility of the flow of the air roughly proportional.
- the pressure degree of opening is set to the key degree of opening (S28).
- the key degree of opening that is set primarily by the keys 3 or the performance buttons 8 and the pressure degree of opening that is set primarily by the change in the air pressure inside the bellows 6 are each set for the purpose of simulating the reactive force that is the action of the bellows of an acoustic accordion. It is set up such that the modes for the case in which the control of the degree of opening is in accordance with the key degree of opening and the case in which the control of the degree of opening is in accordance with the pressure degree of opening are different.
- the opening number at the present time is 0 (S43).
- the opening number is, as discussed previously, set to a value greater than 0 if any of the keys 3 or the performance buttons 8 has been pressed down. Accordingly, in those cases where none of the keys 3 or the performance buttons 8 has been pressed down, the opening number is 0.
- the degree of opening is set to 0 making it so that the air valve 14 is to be completely closed (S44).
- the degree of opening is set to the minimum value that is not 0, which has been specified in advance.
- the threshold value is equivalent to the pressure value in an acoustic accordion for opening the check valve and making the air flow in to the reed and in those cases where the threshold value has been exceeded, the setting is such that the air valve 14 is opened.
- the calculation of S48 is identical to the processing of S25 in the flowchart that is described in Fig. 5 .
- a determination is made as to whether or not the degree of opening that has been obtained in this manner is greater than 100 (S49) and in those cases where the degree of opening is greater than 100 (S49: yes), the degree of opening is made 100 (S50).
- the step table is referred to and the pressure degree of opening is set in conformance with the value of the degree of opening (S51).
- a determination is made as to whether or not the current degree of opening, which is the degree of opening at the present time is equal to the pressure degree of opening (S52).
- the timer is set to a fixed value and the interrupt processing ends(S69).
- the flag is set to "pressure” and, the timer interrupt processing is prohibited (S70), and the interrupt processing ends.
- the speed at which the air valve opens and closes is the identical fixed magnitude both in the case of opening and in the case of closing.
- the pulse motor 17 is set one pulse in the direction of closing of the air valve 14, the current degree of opening is decreased by 1, and the width, which is time that is set to the timer, is set to a value that corresponds to the air pressure for the case in which the air valve 14 is controlled in the direction of closing (S72).
- the current degree of opening is not larger than the pressure degree of opening (S71: no)
- the pulse motor 17 is set one pulse in the direction of opening of the air valve 14, the current degree of opening is increased by 1, and the width, which is the time that is set to the timer, is set to a value that corresponds to the air pressure for the case in which the air valve 14 is controlled in the direction of opening (S74).
- the value of the width that has been set is set to the timer and the processing ends.
- the speed becomes different for the case in which the control of the air valve 14 is in the direction of opening and for the case in which the control of the air valve 14 is in the direction of closing and, together with this, the speeds are also different depending on the magnitude of the air pressure.
- the degree of opening is set not only by the opening number due to the operation of the keys 3 and the performance buttons 8, but also in accordance with the air pressure in the bellows 6, it is possible for the action to be made to closely resemble the behavior of the bellows of an acoustic accordion.
- a new degree of opening is set and the speed is set at which the air valve 14 moves from the current degree of opening to the degree of opening that has been newly set in accordance with the operation of the keys 3, the performance buttons 8, and the bellows 6, it is possible for the operation to more closely resemble the behavior of the bellows of an acoustic accordion.
- the degree of opening setting means that is cited in Claim 1 is equivalent to the processing of S25 of the flowchart described in Fig. 5 and of S48 of the flowchart described in Fig. 6
- the control means is equivalent to the processing of S66 and S68 of the flowchart described in Fig. 7 and of S72 and S74 of the flowchart described in Fig. 8
- the pressed key state detection means that is cited in Claim 3 is equivalent to the processing of S2 of the flowchart described in Fig. 4
- the speed setting means that is cited in Claim 6 is equivalent to the processing of S66, S68, and S69 of the flowchart described in Fig. 7 and of S72, S74, and S75 of the flowchart described in Fig. 8 .
- the degree of opening has been made a value in which the opening number has been multiplied by the opening percentage but it has been set up such that the degree of opening can be derived by means of the product of the opening percentage and the opening number and a coefficient that is set by the performer and in those cases where the coefficient that is set by the performer is greater than 1, the degree of opening is set larger and in those cases where the coefficient that is set by the performer is less than 1, the degree of opening is set smaller.
- the form of the reed and the like is different depending on the pitch, it may be set up such that the degree of opening and the opening and closing speed differ in conformance with the pitch that is prescribed by the key 3 of the keyboard or the performance button 8. Since the length of a reed having a pitch that is low is long, the amplitude of vibration of the tip of the reed is great and, together with this, the size of the opening becomes large. In addition, because the length of a reed having a low pitch is long, the vibration is begun at a low air pressure but because the length of a reed having a high pitch is short, if the air pressure is not high to some extent, the vibration will not start.
- the forms and materials of the reeds are different depending on the timbre, it may be set up such that the degree of opening and the opening and closing speed differ in conformance with the timbre that is prescribed by the register switches 4 and 9.
- the forms and materials of the reeds also are different depending on the manufacturer and the model and the aspects of the vibrations are different. With regard to the materials, usually, aluminium is employed and extra-hard aluminium alloys and the like are used in high-quality units. Since together with generating a pure sound, the aspect of the vibrations is different from ordinary aluminium, the simulation of that condition may also be done.
Landscapes
- Physics & Mathematics (AREA)
- Engineering & Computer Science (AREA)
- Acoustics & Sound (AREA)
- Multimedia (AREA)
- Electrophonic Musical Instruments (AREA)
- Push-Button Switches (AREA)
- Electric Vacuum Cleaner (AREA)
Description
- The present invention relates to an electronic accordion that is furnished with a keyboard, a bellows, and a sound source, and with which a musical tone is generated in conformance with the operation of the keyboard and the bellows.
- Electronic accordions are known with which the keyboard and the pressure in the bellows are detected and a musical tone is generated from a sound source that is configured by an electronic circuit in conformance with the operation of the keyboard and the operation of the bellows.
- In
Japanese Laid-Open Patent Application Publication (Kokai) Number 2002-366145 -
United States Patent No. 4,196,650 discloses a valve system controlling an opening of the bellows of an electronic accordion depending on the number of keys depressed.U.S. Patent No. 3,250,843 describes a pressure sensor for an electronic accordion, detecting air pressure using two closed pistons arranged to compress a variable resistance element whenever the pressure in the bellows changes. - However, with the electronic accordions of the past, the aspect of the reactive force with which the bellows act in those cases where the bellows are operated is different than the aspect of this kind of reactive force of the bellows of an acoustic accordion and there have been the weaknesses that the performance is difficult or that there is a feeling of unease.
- This is because of the fact that the structures for the intake of air into the bellows or the discharge of air from the bellows due to the operation of the keyboard and the operation of the bellows are different in the acoustic accordion and in the electronic accordion.
- The acoustic accordion has sound holes for each key with which air enters and exits and sound hole covers and reeds that vibrate due to the discharge of air or the intake of air that are furnished at each of the sound holes. When a key is pressed down, the sound hole cover is opened, and when a key is released, the sound hole cover is closed. Accordingly, when a large number of keys are pressed down, many air holes link through to the outside, the resistance of the airflow is reduced, and it is possible to easily open and close the bellows.
- When the reeds begin to vibrate, the amplitude gradually increases and the flow of the air that passes through the sound hole changes. In addition, a plurality of reeds for which the pitch is slightly different and reeds for different octaves are furnished at each sound hole and each reed is furnished with a shutter that cuts off the air. By means of the switching of these shutters, it can be made such that a plurality of reeds produce sounds for a single tone and it is possible to set the timbre. The setting of the timbre is carried out by the performer operating a register switch. Accordingly, since the numbers and the types of reeds that are used from among this plurality of reeds are different depending on the timbre, the flow of air changes.
- In addition, these reeds are each furnished with a check valve (reed leather) such that vibration does not occur during the intake of air for a reed that vibrates during air discharge and does not occur during the discharge of air for a reed that vibrates during air intake. In those cases where these check valves are closed when the air pressure in the bellows is a pressure that is the same as atmospheric pressure and when the pressure in the bellows increases or decreases, open again, there is a phenomenon such as that in which the resistance of the air flow becomes higher for an instant.
- In contrast to this, with the electronic accordions of the past, control is carried out in which the air valves with which the bellows has been furnished open and close in conformance with the operation of the keys of the keyboard.
- The present invention has been done in order to remedy the weaknesses described above and has as its object the provision of an electronic accordion with which an operating feeling can be obtained that closely resembles the operation of the bellows of an acoustic accordion.
- In order to achieve the object described above, the electronic accordion cited in
Claim 1 is, for one that has been furnished with a keyboard section that has a plurality of operators that prescribe the pitch of a musical tone and the generation and termination of the musical tone, and a bellows that intakes or discharges air, and an air pressure sensor that detects the air pressure in the bellows, and a sound source that forms a musical tone having the pitch that is prescribed by an operator of the previously mentioned keyboard section in conformance with the air pressure that has been detected by the air pressure sensor, furnished with an air valve that adjusts the degree of opening of an air hole with which the air is taken into the previously mentioned bellows or the air in the bellows is discharged, and degree of opening setting means that adjusts the degree of opening of the previously mentioned air valve in conformance with the air pressure that has been detected by the previously mentioned air pressure sensor, and control means that controls the previously mentioned air valve in conformance with the degree of opening that has been set by the previously mentioned degree of opening setting means. - The electronic accordion cited in
Claim 2 is, for the electronic accordion cited inClaim 1, one in which the previously mentioned degree of opening setting means is one that sets the degree of opening in conformance with the case in which the air pressure that has been detected by the previously mentioned air pressure sensor is greater than atmospheric pressure and the case in which the air pressure is less than atmospheric pressure. - The electronic accordion cited in
Claim 3 is, for the electronic accordion cited inClaim 1 orClaim 2, one that is furnished with pressed key state detection means that detects the state in which an operator of the previously mentioned keyboard section is being operated, and in which the previously mentioned degree of opening setting means is one in which the degree of opening of the previously mentioned air valve is set in conformance with the pressed key state that has been detected by the previously mentioned pressed key state detection means and the air pressure that has been detected by the previously mentioned air pressure sensor. - The electronic accordion cited in
Claim 4 is, for the electronic accordion cited inClaim 3, one in which the previously mentioned degree of opening setting means is one that closes the previously mentioned air pressure valve in those cases where the number of pressed keys that has been detected by the previously mentioned pressed key state detection means is zero and sets the degree of opening of the previously mentioned air valve to a minimum degree of opening greater than zero in those cases where the number of pressed keys is one or greater and, moreover, the air pressure that has been detected by the previously mentioned air pressure sensor has been detected to be equal to atmospheric pressure, and that sets the degree of opening greater than the previously mentioned minimum degree of opening in those cases where the number of pressed keys that has been detected by the previously mentioned pressed key state detection means is one or more and, moreover, the air pressure that has been detected by the previously mentioned air pressure sensor is a specified value. - The electronic accordion cited in
Claim 5 is, for the electronic accordion cited inClaim 4, one in which the previously mentioned degree of opening setting means is one in which the degree of opening of the previously mentioned air valve is altered in those cases where the previously mentioned air pressure has exceeded a specified value. - The electronic accordion cited in
Claim 6 is, for the electronic accordion cited in any of theClaims 3 through 5, one in which the accordion is furnished with speed setting means that sets the speed at which the degree of opening changes up to the degree of opening that has been set by the previously mentioned degree of opening setting means, and the previously mentioned control means is one that controls the previously mentioned air valve in conformance with the degree of opening that has been set by the previously mentioned degree of opening setting means and the speed that has been set by the previously mentioned speed setting means. - The electronic accordion cited in
Claim 7 is, for the electronic accordion cited inClaim 6, one in which the previously mentioned degree of opening setting means sets a first degree of opening in conformance with the pressed key state and the air pressure that has been detected by the previously mentioned air pressure sensor in those cases where the pressed key state has been detected to have changed by the previously mentioned pressed key state detection means, and sets a second degree of opening in those cases where the pressed key state is fixed and the air pressure that has been detected by the previously mentioned air pressure sensor has been detected to have changed, and the previously mentioned speed setting means sets a first speed that changes the degree of opening up to the first degree of opening that has been set by the previously mentioned degree of opening setting means, and, after the degree of opening of the air valve reaches the degree of opening that has been set by the previously mentioned degree of opening setting means, sets a second speed, and the previously mentioned control means controls the previously mentioned air valve at the first speed up to the first degree of opening during the time that the pressed key state that has been detected by the previously mentioned pressed key state detection means does not change, and, after the degree of opening of the air valve reaches the first degree of opening, controls the air valve at the second speed up to the second degree of opening. - The electronic accordion cited in
Claim 8 is, for the electronic accordion cited inClaim - The electronic accordion cited in
Claim 9 is, for the electronic accordion cited inClaim 8, one in which the previously mentioned speed setting means sets the speed in conformance with the air pressure that has been detected by the previously mentioned air sensor in those cases where the degree of opening is increased and sets a fixed speed in those cases where the degree of opening is decreased. - The electronic accordion cited in Claim 10 is, for the electronic accordion cited in any of the
Claims 6 through 9, one in which the previously mentioned speed setting means is one that sets the speed in conformance with the case in which the air pressure that has been detected by the previously mentioned air pressure sensor is greater than atmospheric pressure and the case in which the air pressure is less than atmospheric pressure. - In accordance with the electronic accordion cited in
Claim 1, since the accordion is furnished with an air valve that adjusts the degree of opening of an air hole with which the air is taken into the bellows or the air in the bellows is discharged, and degree of opening setting means that adjusts the degree of opening of the air valve in conformance with the air pressure that has been detected by the air pressure sensor, and control means that controls the air valve in conformance with the degree of opening that has been set by the degree of opening setting means, there is the advantageous result that it is possible to obtain an operating feeling that closely resembles the operation of the bellows of an acoustic accordion. In an acoustic accordion, air is supplied to the sound hole from the bellows or air is supplied from outside and the reed vibrates. The greater the difference between the air pressure in the bellows and atmospheric pressure, the greater the amplitude of the reed vibration becomes and the easier the flow of the air becomes. Therefore, due to the fact that the degree of opening of the air valve is controlled in conformance with air pressure in the bellows, it is possible to produce an operating feeling that closely resembles that of the bellows of an acoustic accordion. - In accordance with the electronic accordion cited in
Claim 2, in addition to the advantageous result that is exhibited by the electronic accordion cited inClaim 1, the degree of opening setting means is one that sets the degree of opening in conformance with the case in which the air pressure that has been detected by the air pressure sensor is greater than atmospheric pressure and the case in which the pressure is less than atmospheric pressure. In an acoustic accordion, since the flow path of the air is different in those cases where the bellows is expanded and in those cases where the bellows is compressed, the load applied to the bellows is different in the case where the bellows is expanded and the case where the bellows is compressed, and there is the advantageous result that it is possible to simulate this condition. - In accordance with the electronic accordion cited in
Claim 3, in addition to the advantageous result that is exhibited by the electronic accordion cited inClaim 2, since the accordion is furnished with pressed key state detection means that detects the state in which an operator of the keyboard section is being operated, and the degree of opening setting means is one in which the degree of opening of the air valve is set in conformance with the pressed key state that has been detected by the pressed key state detection means and the air pressure that has been detected by the air pressure sensor, there is the advantageous result that it is even more possible to produce an operating feeling that closely resembles that of the bellows of an acoustic accordion. - In accordance with the electronic accordion cited in
Claim 4, in addition to the advantageous result that is exhibited by the electronic accordion cited inClaim 3, the degree of opening setting means is one that closes the air pressure valve in those cases where the number of pressed keys that has been detected by the pressed key state detection means is zero and sets the degree of opening of the air valve to a minimum degree of opening greater than zero in those cases where the number of pressed keys is one or greater and, moreover, the air pressure that has been detected by the air pressure sensor has been detected to be equal to atmospheric pressure, and that sets the degree of opening greater than the minimum degree of opening in those cases where the number of pressed keys that has been detected by the pressed key state detection means is one or more and, moreover, the air pressure that has been detected by the air pressure sensor is a specified value. - In an acoustic accordion, in those cases where a key or a performance button is pressed down, when the air pressure in the bellows becomes equal to atmospheric pressure, the check valve with which the reed is furnished blocks the air flow path. However, since the check valve does not completely close the sound hole, there is the advantageous result that it is possible to simulate this condition.
- In accordance with the electronic accordion cited in
Claim 5, in addition to the advantageous result that is exhibited by the electronic accordion cited inClaim 4, the degree of opening setting means is one in which the degree of opening of the air valve is altered in those cases where the value that is specified for the air pressure has been exceeded. - In an acoustic accordion, in those cases where the pressure in the bellows has increased due to a state in which the check valve is blocking the air flow path, the check valve is not opened until the air pressure becomes a specified pressure or greater and there is the advantageous result that it is possible to simulate this condition.
- In accordance with the electronic accordion cited in
Claim 6, in addition to the advantageous result that is exhibited by the electronic accordion cited in any of theClaims 3 through 5, since the accordion is furnished with speed setting means that sets the speed at which the degree of opening changes up to the degree of opening that has been set by the degree of opening setting means, and the control means is one that controls the air valve in conformance with the degree of opening that has been set by the degree of opening setting means and the speed that has been set by the speed setting means, there is the advantageous result that it is even more possible to produce an operating feeling that closely resembles that of the bellows of an acoustic accordion. In an acoustic accordion, as discussed above, reeds are furnished in the sound holes and these reeds vibrate and produce the musical tones. However, when the sound hole cover is opened, the amplitude of the vibrations of the reed gradually increases. Accordingly, the amount of air that is taken into the bellows or that is discharged from the bellows gradually becomes greater and it is possible to simulate this kind of condition by setting the opening and closing speed of the air valve. - In accordance with the electronic accordion cited in
Claim 7, in addition to the advantageous result that is exhibited by the electronic accordion cited inClaim 6, since the degree of opening setting means sets a first degree of opening in conformance with the pressed key state and the air pressure that has been detected by the air pressure sensor in those cases where the pressed key state has been detected to have changed by the pressed key state detection means, and sets a second degree of opening in those cases where the pressed key state is fixed and the air pressure that has been detected by the air pressure sensor has been detected to have changed, and the speed setting means sets a first speed that changes the degree of opening up to the first degree of opening that has been set by the degree of opening setting means, and, after the degree of opening of the air valve reaches the degree of opening that has been set by the degree of opening setting means, sets a second speed, and the control means controls the air valve at the first speed up to the first degree of opening during the time that the pressed key state that has been detected by the pressed key state detection means does not change, and, after the degree of opening of the air valve reaches the first degree of opening, controls the air valve at the second speed up to the second degree of opening, there is the advantageous result that it is possible to simulate the opening and closing of the sound hole covers by the keys of the keyboard and the performance buttons in an acoustic accordion as the first degree of opening and in those cases where the air pressure changes in a state in which the first degree of opening is fixed, to make the simulation setting the second degree of opening in conformance with the air pressure, while in those cases where the first degree of opening has changed and in those cases where the second degree of opening has changed, it is possible to set the respective opening and closing speeds of the air valves. - In accordance with the electronic accordion cited in
Claim 8, in addition to the advantageous result that is exhibited by the electronic accordion cited inClaim - In accordance with the electronic accordion cited in
Claim 9, in addition to the advantageous result that is exhibited by the electronic accordion cited inClaim 8, the speed setting means sets the speed in conformance with the air pressure that has been detected by the air sensor in those cases where the degree of opening is increased and sets a fixed speed in those cases where the degree of opening is decreased. In an acoustic accordion, the vibration of the reeds starts when the keys or the performance buttons are pressed down. When the vibration starts, the amplitude gradually increases and in those cases where the air pressure in the bellows and atmospheric pressure differ greatly, the change in the amplitude is rapid. On the other hand, in those cases where the key or performance button that is being pressed down is released, the flow path of the air is blocked without regard to the pressure of the bellows and it is possible to simulate this kind of condition. - In accordance with the electronic accordion cited in Claim 10, in addition to the advantageous result that is exhibited by the electronic accordion cited in any of the
Claims 6 through 9, because, since the speed setting means is one that sets the speed in conformance with the case in which the air pressure that has been detected by the air pressure sensor is greater than atmospheric pressure and the case in which the pressure is less than atmospheric pressure, it is possible to set the speed at which the air valve opens and closes in those cases where the bellows is expanded as well as in those cases where the bellows is compressed, there is the advantageous result that it is even more possible to produce an operating feeling that closely resembles that of the bellows of an acoustic accordion. -
-
Fig. 1 is an external view drawing that shows the exterior of the electronic accordion in accordance with the present invention; -
Fig. 2 is a drawing that shows the air valve, (a) is an oblique drawing that shows the exterior of the air valve, and (b) is a schematic drawing that shows the interior of the air valve; -
Fig. 3 is a block diagram that shows the electrical configuration of the electronic accordion; -
Fig. 4 is a flowchart that shows the main processing;Fig. 5 is a flowchart that shows the processing with which the degree of opening is set; -
Fig. 6 is a flowchart that shows processing that is a continuation of the processing shown inFig. 5 ; -
Fig. 7 is a flowchart that shows the timer interrupt processing; -
Fig. 8 is a flowchart that shows processing that is a continuation of the processing shown inFig. 7 . - An explanation will be given below of a preferred embodiment of the present invention while referring to the attached drawings.
Fig. 1 shows the exterior of theelectronic accordion 1, which is a preferred embodiment of the present invention. In the drawing, thekeyboard 2 and the plurality ofregister switches 4 are furnished on the right hand operating section that is operated with the right hand and thekeys 3, which comprise a plurality of white keys and black keys, are furnished on thekeyboard 2. The plurality ofregister switches 4, with which the timbres of the musical tones that have been performed by thekeys 3 are set, are furnished behind thekeyboard 2. A sensor is furnished for each key 3 and eachregister switch 4 and the state in which they are being operated is detected. - The
accompaniment section 7, which has the plurality ofperformance buttons 8 furnished, and the plurality ofregister switches 9, with which the timbres of the musical tones that are performed using theaccompaniment section 7, are furnished on the left hand operating section that is operated with the left hand. A sensor is also furnished for eachperformance button 8 and eachregister switch 9 and the state in which they are being operated is detected. - When the performance state of a
key 3 of thekeyboard 2 is detected, the performance information is sent to the sound source 24 (refer toFig. 3 ) and a musical tone is generated or terminated by thesound source 24. The performance information is in a format that has been prescribed in accordance with the MIDI standard and, in those cases where akey 3 has been pressed down, a Note On message that comprises the status, which indicates the key that has been pressed down, the MIDI channel, the note number, which indicates the pitch of the key that has been pressed down, and a value that specifies the velocity value (hereinafter, referred to as the "Note On"), is formed. In addition, in those cases where a key has been released, a Note Off message that comprises the status, which indicates the key that has been released, the MIDI channel, the note number, which indicates the pitch of the key that has been released, and a value that specifies the velocity value (hereinafter, referred to as the "Note Off"), is formed. - In addition, in those cases where a
register switch 4 has been operated, the performance information that indicates the timbre that is set to theregister switch 4 that has been turned on is sent to thesound source 24. The performance information that directs the timbre is a program change in accordance with the MIDI standards and comprises the status that indicates the timbre that is directed, the MIDI channel, and the program number. - The bass or chords are assigned to the large number of
performance buttons 8 of theaccompaniment section 7 that are performed with the left hand and the timbres for these are selected and set by means of the register switches 9. In those cases where aperformance button 8 that specifies a chord has been pressed down, the Notes On that correspond to the plurality of sounds that comprise the chord are sent to thesound source 24. For example, in the case where theperformance button 8 that directs the chord of C major has been pressed down the three Notes On that have the note numbers for which the letter notations are C, E, and G are sent to the sound source. - A bellows 6 that is the same as that of an acoustic accordion is furnished between the
right hand keyboard 2 and the lefthand accompaniment section 7 and anair pressure sensor 5 is furnished that detects the pressure of the air inside thebellows 6. In those cases where thebellows 6 is compressed such that the volume inside thebellows 6 becomes smaller, the air pressure inside thebellows 6 becomes greater than atmospheric pressure and the air in thebellows 6 is discharged via theair valve 14. In those cases where thebellows 6 is expanded such that the volume inside thebellows 6 becomes larger, the air pressure inside thebellows 6 becomes less than atmospheric pressure and the air from outside is taken into thebellows 6 via theair valve 14. - A release button that is not shown in the drawing is furnished on the left hand side and a valve to mechanically release the
bellows 6 can be operated no matter what state theair valve 14 is in. Since in those cases where theair valve 14 is closed and a key 3 or aperformance button 8 has not been pressed down, the opening and closing of thebellows 6 cannot be done, a valve that mechanically releases thebellows 6 has been furnished separately and a release button has been furnished that opens that valve. This is something that can be used in those cases where thebellows 6 is opened or closed in any position and is operated, in particular, in those cases where the performance has ended and thebellows 6 is then closed. - For the Note On, Note Off, and program change that are generated in those cases where a
key 3 of thekeyboard 2 has been operated, for example, the MIDI channel is set to 1, the MIDI channel of the chord that is generated in those cases where theaccompaniment section 7 has been operated is set to 2, and the MIDI channel of the bass sound is set to 3. - In addition, the air pressure in the
bellows 6 is detected by theair pressure sensor 5 and the MIDI standard control change that directs the volume is used. In this case, the control change is transmitted for all of the MIDI channels that are set to thekeyboard 2 and theaccompaniment section 7. - The
electrical control circuit 12 and thebattery 11 that supplies power to theelectrical control circuit 12, thespeaker 26, theair hole 19 with which the air in thebellows 6 is taken in or discharged, and theair valve 14 that controls the flow path of the air between theair hole 19 and thebellows 6 are furnished inside theright hand keyboard 2. -
Fig. 2 shows the details of theair valve 14,Fig. 2(a) is an oblique view drawing that shows the exterior of theair valve 14, andFig. 2(b) is a cross-section drawing that shows the interior of theair valve 14. - As is shown in
Fig. 2(a) , thebellows 6 and theair valve 14 are linked by theair pipe 13, theair valve 14 has theflow path 15 in its interior, and theair valve 14 is linked to theair hole 19. Theair hole 19 is furnished with a filter (not shown in the drawing) that is formed from a net and felt and the like inside the net so as not to suck in dirt and dust. - As is shown in
Fig. 2(b) , inside theair valve 14, thethrottle 16, which opens and closes theflow path 15 that is circular in cross-section, is disposed so that it is free to rotate with the diameter in the vertical direction of thecircular flow path 15 as the axis. Thethrottle 16 is formed from a disk that follows along the inner circumference of thecircular flow path 15. Accordingly, in those cases where the periphery of the disk of thethrottle 16 is set in a position that follows along the inner periphery of the flow path 15 (known as the degree of opening 0), theair valve 14 is in a closed state and the position at which thethrottle 16 has been rotated 90 degrees from that position with the axis as the center (known as the degree of opening 100) is the state in which the valve has been opened fully. Incidentally,Fig. 2(b) shows a state in which the valve has been rotated roughly 45 degrees. - The shaft of the
throttle 16 is connected to the shaft of thepulse motor 17 and it is possible to drive thethrottle 16 to a specified angle by inputting a single pulse to thepulse motor 17 in the opening direction or the closing direction. -
Fig. 3 is a block diagram that shows the electrical configuration of theelectronic accordion 1. Theelectronic accordion 1 comprises theCPU 21, the ROM 22, the RAM 23, thepulse motor 17, thekeys 3 andperformance buttons 8, the register switches 4 and 9, theair sensor 5, thesound source 24, theamp 25, and thespeaker 26. TheCPU 21, the ROM 22, the RAM 23, thesound source 24, and the amp 2.5, are formed into the electrical control circuit I2. - The
CPU 21 is a central processing unit and executes each of the various programs that are stored in the ROM 22. The ROM 22 stores the control programs and the fixed data that are referred to when those programs are executed. In the fixed data are set such things as the timbre parameters that are set by the timbres that have been assigned to each of the register switches 4 and 9 and the like and, for each timbre, how many reeds produce sounds for one note and the like is set. - In addition, a timer is built into the
CPU 21 and is configured such that when a time that has been set is clocked, an interrupt is generated by theCPU 21. - The RAM 23 possesses areas that store each of the required areas, flags, and the like that are each of the various register groups store when the
CPU 21 executes the control programs and is a memory that can be accessed and be overwritten randomly. - The
sound source 24 generates or terminates a musical tone in conformance with the performance information such as the Note On or the Note Off and the like that are sent from theCPU 21. The sound source has a plurality of sound production channels and can generate a plurality of musical tones at the same time. The musical tone signal that is generated by thesound source 24 is amplified by theamp 25 and emitted as sound from thespeaker 26. -
Fig. 4 is a flowchart that shows the main processing that is executed by theCPU 21. This processing is carried out repeatedly from when the power to theelectronic accordion 1 is turned on until the power is turned off. When the power is turned on, first, the initial settings are carried out (S1). In the initial setting, a flag is set to "pressure." For the degree of opening of theair valve 14, the key degree of opening and the pressure degree of opening are set in those cases where a key 3 or aperformance button 8 has been operated and the pressure degree of opening is set in those cases where the pressure in thebellows 6 has changed. The degree of opening of theair valve 14 is first controlled so as to arrive at the key degree of opening and after the key degree of opening has been arrived at, is controlled so as to arrive at the pressure degree of opening. In those cases where the control is carried out so as to arrive at the key degree of opening, the flag is set to "key" and in those cases where the control is carried out so as to arrive at the pressure degree of opening, the flag is set to "pressure." - In addition, in the initial settings, the current degree of opening and the opening number are set to 0. The opening number here simulates the number of sound holes that are opened by the operation of the
keys 3 or theperformance buttons 8 and if onekey 3 of thekeyboard 2 is pressed down and the timbre that has been selected by theregister switch 4 is one that uses one reed, the opening number is increased by 1. If the timbre that has been selected is one that uses two reeds, the opening number is increased by 2. In addition, if aperformance button 8 that specifies a chord in theaccompaniment section 7 is pressed down and the timbre that is selected by theregister switch 9 is one that uses one reed, in those cases where the chord that has been directed is composed of three notes, the opening number is increased by 3 and if the timbre is one that uses two reeds, the opening number is increased by 6. - Next, whether or not any of the
keys 3 of thekeyboard 2 or any of theperformance buttons 8 of theaccompaniment section 7 has been pressed down is detected (S2), and then the air pressure in thebellows 6 is detected using the air pressure sensor 5 (S3). Next, a determination is made as to whether or not a Note On is to be generated. In those cases where the fact that the air pressure in thebellows 6 is not equal to atmospheric pressure and any of thekeys 3 or theperformance buttons 8 has been pressed down has been detected (S4: yes), a Note On is generated and transmitted to the sound source 24 (S5). When the sound source receives the Note On, the production of a musical tone having a specified pitch is started at a prescribed level. - When in those cases where a determination has been made in the processing of S4 that a Note On is not generated (S4: no) and, in addition, the processing of S5 has finished, a determination is made as to whether or not a Note Off is to be generated (S6). In those cases where the air pressure in the
bellows 6 has become equal to atmospheric pressure, a Note Off that directs the termination of the production of the musical tones for all of the musical tones that are being produced by thesound source 24 is generated and, in those cases where any of thekeys 3 or theperformance buttons 8 that had been pressed down has been released, a Note Off is generated for the musical tone having the pitch that corresponds to the key 3 or theperformance button 8 that has been released (S6: yes). The Note Off that has been generated is transmitted to the sound source 24 (S7). When thesound source 24 receives the Note Off, the generation of the musical tone having the pitch that has been specified is terminated. - In those cases where in the processing of S6, a determination has been made that a Note Off is not generated (S6: no) and, in addition, the processing of S7 has ended, a determination is made as to whether or not a control change is to be generated (S8). In those cases where the air pressure in the
bellows 6 that has been detected by theair pressure sensor 5 changes and a musical tone is being generated by thesound source 24, a control change is generated (S8: yes) and transmitted to the sound source 24 (S9). When thesound source 24 receives the control change, the volume of the musical tone that is being generated is changed to the volume that is directed by the control change. - In those cases where in the processing of S8 a determination has been made that a control change is not generated (S8: no) and, in addition, the processing of S9 has ended, whether or not a
register switch - In those cases where a register switch has been operated and a new timbre has been specified (S 11: yes), a program change for the MIDI channel that corresponds to the
register switch - In those cases where in the processing of S11, a determination has been made that a program change is not generated (S11: no) and, in addition, the processing of S12 has ended, the air valve control processing is carried out (S 13) and the routine returns to the processing of S2. An explanation will be given regarding the air valve control processing of S13 while referring to the flowcharts described in
Fig. 5 through Fig. 8 . -
Fig. 5 through Fig. 8 are flowcharts that show the air valve control processing, which is processing in which the degree of opening of theair valve 14 and the speed up to that degree of opening is set in conformance with the operation of thekeys 3, theperformance buttons 8, and thebellows 6.Fig. 5 shows the processing in which the degree of opening is set in conformance with the operation of a key 3 or aperformance button 8 andFig. 6 shows the processing in which the degree of opening is set in conformance with the operation of thebellows 6.Fig. 7 andFig. 8 show the processing in which the speed for the opening and closing of theair valve 14 from the current degree of opening to the degree of opening that has been newly set is controlled by a timer interrupt. - First, an explanation will be given regarding the processing for setting the degree of opening while referring to
Fig. 5 andFig. 6 . First, a determination is made as to whether or not a Note On has been generated (S21). This Note On is the case in which a Note On has been generated by the processing of S4 in the flowchart ofFig. 4 . In those cases where a Note On has been generated (S21: yes), the opening number is increased by the amount α (S22). As discussed before, how many reeds are used to form the musical tone that is generated by the Note On differs depending on the timbre that is selected by theregister switch - On the other hand, in those cases where in the determination processing of 521, a determination has been made that a Note On is not generated (S21: no), a determination is made as to whether or not a Note Off has been generated (S23). This Note Off is the case in which a Note Off has been generated by the processing of S6 in the flowchart of
Fig. 4 . In those cases where a Note Off has been generated (S23: yes), the opening number is decreased the amount of α. With regard to the value of α, this is as discussed before. - In the processing of S22 and S24, following the setting of the opening number, the degree of opening is made the value in which the opening number is multiplied by the opening percentage (S25). The opening percentage is the degree of opening that corresponds to the air pressure for each opening number and is stored in a table and the like that corresponds to the air pressure.
- Next, a determination is made as to whether or not the degree of opening that has been obtained in this manner is greater than 100 (S26) and in those cases where the degree of opening is greater than 100 (S26: yes), the degree of opening is made 100 (S27). In those cases where the degree of opening is not greater than 100 (S26: no) or following the processing of S27, the key degree of opening is set in conformance with the value of the degree of opening referring to the step table and the pressure degree of opening is set to the key degree of opening (S28).
- The step table is one with which the degree of rotation of the
throttle 16 of theair valve 14 is set in conformance with the degree of opening. The degree of rotation of thethrottle 16 is proportional to the number of pulses that are supplied to thepulse motor 17, but since the degree of rotation of thethrottle 16 is not proportional to the facility of the flow of the air (the airflow for the case in which the air pressure is fixed), this is a table with which the number of pulses that are supplied to thepulse motor 17 are converted in conformance with the degree of opening so as to make the degree of opening and the facility of the flow of the air roughly proportional. - Next, the pressure degree of opening is set to the key degree of opening (S28). For the key degree of opening and the pressure degree of opening, the key degree of opening that is set primarily by the
keys 3 or theperformance buttons 8 and the pressure degree of opening that is set primarily by the change in the air pressure inside thebellows 6 are each set for the purpose of simulating the reactive force that is the action of the bellows of an acoustic accordion. It is set up such that the modes for the case in which the control of the degree of opening is in accordance with the key degree of opening and the case in which the control of the degree of opening is in accordance with the pressure degree of opening are different. - Following the processing of S28, a determination is made as to whether or not the current degree of opening, which is the degree of opening as of the present time, is equal to the key degree of opening (S29). In those cases where the current degree of opening is not equal to the key degree of opening (S29: no), the flag is set to "key" (S30), permission is given to the timer interrupt (S31) and the degree of opening setting processing ends. In those cases where in the determination processing of S29, a determination has been made that the current degree of opening is equal to the key degree of opening (S29: yes), the degree of opening setting processing ends.
- In those cases where in the determination processing of S23, a Note Off is not generated (S23: no), the setting processing for the degree of opening that corresponds to the change in the air pressure shown in
Fig. 6 is carried out. First, a determination is made as to whether or not the air pressure in thebellows 6 that has been detected by theair pressure sensor 5 has changed. In those cases where the air pressure has not changed (S41: no), the degree of opening setting processing ends. In those cases where the air pressure has changed (S41: yes), a determination is made as to whether or not the air pressure is equal to atmospheric pressure (the air pressure is taken to be equal to 0) (S42). In those cases where the air pressure is 0 (S42: yes), a determination is made as to whether or not the opening number at the present time is 0 (S43). The opening number is, as discussed previously, set to a value greater than 0 if any of thekeys 3 or theperformance buttons 8 has been pressed down. Accordingly, in those cases where none of thekeys 3 or theperformance buttons 8 has been pressed down, the opening number is 0. In those cases where the opening number is 0 (S43: yes), the degree of opening is set to 0 making it so that theair valve 14 is to be completely closed (S44). On the other hand, in those cases where the opening number is not 0, the degree of opening is set to the minimum value that is not 0, which has been specified in advance. This is because in an acoustic accordion, in those cases where a key or a performance button is pressed down, the check valve closes the airflow path of the reed but, differing from the closing off of the sound hole by the sound hole cover, the check valve does not completely close the sound hole and some air enters and exits. Setting the degree of opening to the minimum value is something that simulates this kind of condition. In those cases where the degree of opening has been set in S44 or S45, the routine advances to the processing of S51. - On the other hand, in those cases where in the determination processing of S42, a determination has been made that the air pressure is not 0 (S42: no), a determination is made as to whether or not the degree of opening is set to the minimum value (S46). In those cases where the degree of opening is set to the minimum value (S46: yes), a determination is made as to whether or not the air pressure is greater than a threshold value (S47). In those cases where the air pressure is not greater than a threshold value (S47: no), the degree of opening setting processing ends and in those cases where the air pressure is greater than a threshold value (S47: yes), the degree of opening is made a value in which the opening number has been multiplied by the opening percentage (S48). The threshold value is equivalent to the pressure value in an acoustic accordion for opening the check valve and making the air flow in to the reed and in those cases where the threshold value has been exceeded, the setting is such that the
air valve 14 is opened. - The calculation of S48 is identical to the processing of S25 in the flowchart that is described in
Fig. 5 . Next, a determination is made as to whether or not the degree of opening that has been obtained in this manner is greater than 100 (S49) and in those cases where the degree of opening is greater than 100 (S49: yes), the degree of opening is made 100 (S50). In those cases where the degree of opening is not greater than 100 (S49: no), or following the processing of S50, the step table is referred to and the pressure degree of opening is set in conformance with the value of the degree of opening (S51). Next, a determination is made as to whether or not the current degree of opening, which is the degree of opening at the present time is equal to the pressure degree of opening (S52). In those cases where the current degree of opening is not equal to the pressure degree of opening (S52: no), permission is given to the timer interrupt (S53) and the degree of opening setting processing ends. In those cases where in the determination processing of S52, it has been determined that the current degree of opening is equal to the pressure degree of opening (S52: yes), the degree of opening setting processing ends. - Next, an explanation will be given regarding the timer interrupt processing while referring to
Fig. 7 andFig. 8 . First, a determination is made as to whether or not the flag is set to "key" (S61). In those cases where the flag is set to "key" (S61: yes), a determination is made as to whether the current degree of opening is smaller than the key degree of opening and, moreover, is not smaller than the pressure degree of opening (S62). In those cases where the current degree of opening is not smaller than the key degree of opening or is smaller than the pressure degree of opening (S62: no), a determination is made as to whether the current degree of opening is larger than the key degree of opening and, moreover, is not larger than the pressure degree of opening (S63). In those cases where the current degree of opening is smaller than the key degree of opening and, moreover, is not smaller than the pressure degree of opening (S62: yes) or in those cases where the current degree of opening is larger than the key degree of opening and, moreover, is not larger than the pressure degree of opening (S63: yes), the flag is set to "pressure" (S64) and the routine advances to the processing of the flowchart that is described inFig. 8 . - In those cases where in the determination processing of S63, the current degree of opening is not larger than the key degree of opening or in those cases where the current degree of opening is larger than the pressure degree of opening (S63: no), a determination is made as to whether or not the current degree of opening is larger than the key degree of opening (S65). In those cases where the current degree of opening is larger than the key degree of opening (S65: yes), the
pulse motor 17 is set one pulse in the direction of closing of theair valve 14 and the current degree of opening is decreased by 1 (S66). - In those cases where in the determination processing of S65, a determination has been made that the current degree of opening is not larger than the key degree of opening (S65: no), then, next, a determination is made as to whether or not the current degree of opening is smaller than the key degree of opening (S67). In those cases where the current degree of opening is smaller than the key degree of opening (S67: yes), the
pulse motor 17 is set one pulse in the direction of opening of theair valve 14 and the current degree of opening is increased by 1 (S68). - Following the processing of S66 and the processing of S68, the timer is set to a fixed value and the interrupt processing ends(S69). On the other hand, in those cases where in the determination processing of S67, a determination has been made that the current degree of opening is not smaller than the key degree of opening (S67: no), the flag is set to "pressure" and, the timer interrupt processing is prohibited (S70), and the interrupt processing ends.
- Accordingly, in those cases where the
air valve 14 is opened and closed by the key degree of opening, the speed at which the air valve opens and closes is the identical fixed magnitude both in the case of opening and in the case of closing. - In those cases where in the determination processing of S61, a determination has been made that the flag is not set to "key" (S61: no) and in those cases where the flag has been set to "pressure" in S64, the routine advances to the processing of the flowchart that is described in
Fig. 8 . - First, a determination is made as to whether or not the current degree of opening is larger than the pressure degree of opening (S71). In those cases where the current degree of opening is larger than the pressure degree of opening (S71: yes), the
pulse motor 17 is set one pulse in the direction of closing of theair valve 14, the current degree of opening is decreased by 1, and the width, which is time that is set to the timer, is set to a value that corresponds to the air pressure for the case in which theair valve 14 is controlled in the direction of closing (S72). In those cases where the current degree of opening is not larger than the pressure degree of opening (S71: no), a determination is made as to whether or not the current degree of opening is smaller than the pressure degree of opening (S73). In those cases where the current degree of opening is smaller than the pressure degree of opening (S73: yes), thepulse motor 17 is set one pulse in the direction of opening of theair valve 14, the current degree of opening is increased by 1, and the width, which is the time that is set to the timer, is set to a value that corresponds to the air pressure for the case in which theair valve 14 is controlled in the direction of opening (S74). - In those cases where the processing of S72 and S74 has ended, the value of the width that has been set is set to the timer and the processing ends.
- Accordingly, for the cases in which the opening and closing of the
air valve 14 are controlled by the air pressure, the speed becomes different for the case in which the control of theair valve 14 is in the direction of opening and for the case in which the control of theair valve 14 is in the direction of closing and, together with this, the speeds are also different depending on the magnitude of the air pressure. - As has been explained above, since in accordance with the preferred embodiment described above, the degree of opening is set not only by the opening number due to the operation of the
keys 3 and theperformance buttons 8, but also in accordance with the air pressure in thebellows 6, it is possible for the action to be made to closely resemble the behavior of the bellows of an acoustic accordion. In addition, since a new degree of opening is set and the speed is set at which theair valve 14 moves from the current degree of opening to the degree of opening that has been newly set in accordance with the operation of thekeys 3, theperformance buttons 8, and thebellows 6, it is possible for the operation to more closely resemble the behavior of the bellows of an acoustic accordion. - Incidentally, the degree of opening setting means that is cited in
Claim 1 is equivalent to the processing of S25 of the flowchart described inFig. 5 and of S48 of the flowchart described inFig. 6 , and the control means is equivalent to the processing of S66 and S68 of the flowchart described inFig. 7 and of S72 and S74 of the flowchart described inFig. 8 . In addition, the pressed key state detection means that is cited inClaim 3 is equivalent to the processing of S2 of the flowchart described inFig. 4 . Also, the speed setting means that is cited inClaim 6 is equivalent to the processing of S66, S68, and S69 of the flowchart described inFig. 7 and of S72, S74, and S75 of the flowchart described inFig. 8 . - An explanation was given above of the present invention based on a preferred embodiment, however, the present invention is one that is in no way limited to the preferred embodiments described above and the fact that various modifications and changes are possible that do not deviate from and are within the scope of the essentials of the present invention can be easily surmised.
- For example, in the preferred embodiment described above, it has been set up such that the degree of opening and the speed are determined in accordance with the operation of the key 3 or the
performance button 8 that have been pressed down, and thebellows 6 but it may also be set up such that the performer has parameters that can be set as desired and the degree of opening and the speed are set in accordance with those parameters. For example, in S25 of the flowchart described inFig. 5 , the degree of opening has been made a value in which the opening number has been multiplied by the opening percentage but it has been set up such that the degree of opening can be derived by means of the product of the opening percentage and the opening number and a coefficient that is set by the performer and in those cases where the coefficient that is set by the performer is greater than 1, the degree of opening is set larger and in those cases where the coefficient that is set by the performer is less than 1, the degree of opening is set smaller. When it is done in this manner, by means of a performer whose strength is weak setting the coefficient larger and a performer whose strength is strong setting the coefficient smaller and the like, it would be possible to set operating properties of thebellows 6 that are optimized to the performer. - In addition, since in an acoustic accordion, the form of the reed and the like is different depending on the pitch, it may be set up such that the degree of opening and the opening and closing speed differ in conformance with the pitch that is prescribed by the
key 3 of the keyboard or theperformance button 8. Since the length of a reed having a pitch that is low is long, the amplitude of vibration of the tip of the reed is great and, together with this, the size of the opening becomes large. In addition, because the length of a reed having a low pitch is long, the vibration is begun at a low air pressure but because the length of a reed having a high pitch is short, if the air pressure is not high to some extent, the vibration will not start. - In addition, since in an acoustic accordion, the forms and materials of the reeds are different depending on the timbre, it may be set up such that the degree of opening and the opening and closing speed differ in conformance with the timbre that is prescribed by the register switches 4 and 9. The forms and materials of the reeds also are different depending on the manufacturer and the model and the aspects of the vibrations are different. With regard to the materials, usually, aluminium is employed and extra-hard aluminium alloys and the like are used in high-quality units. Since together with generating a pure sound, the aspect of the vibrations is different from ordinary aluminium, the simulation of that condition may also be done.
-
- 1:
- electronic instrument (electronic accordion)
- 2:
- keyboard (keyboard section)
- 3:
- key (keyboard section operator)
- 4, 9:
- register switch
- 5:
- air pressure sensor
- 6:
- bellows
- 7:
- accompaniment section (keyboard section)
- 8:
- performance button (keyboard section operator)
- 14:
- air valve
- 21:
- CPU
- 23:
- RAM
- 24:
- sound source
Claims (10)
- An electronic accordion (1) furnished with a keyboard section (2) that has a plurality of operators (3) that prescribe the pitch of a musical tone and the generation and termination of the musical tone, and a bellows (6) that intakes or discharges air, and an air pressure sensor (5) that detects the air pressure in the bellows (6), and a sound source that forms a musical tone having the pitch that is prescribed by an operator (3) of the previously mentioned keyboard section (2) in conformance with the air pressure that has been detected by the air pressure sensor (5), wherein the accordion (1) is furnished with an air valve (14) that adjusts the degree of opening of an air hole with which the air is taken into the previously mentioned bellows (6) or the air in the bellows (6) is discharged, and characterised in comprising a degree of opening setting means (16) that adjusts the degree of opening of the previously mentioned air valve (4) in conformance with the air pressure that has been detected by the previously mentioned air pressure sensor (5), and control means (21) that controls the previously mentioned air valve (14) in conformance with the degree of opening that has been set by the previously mentioned degree of opening setting means (16).
- The electronic accordion (1) cited in Claim 1 characterized in that the previously mentioned degree of opening setting means (16) is one that sets the degree of opening in conformance with the case in which the air pressure that has been detected by the previously mentioned air pressure sensor (5) is greater than atmospheric pressure and the case in which the air pressure is less than atmospheric pressure.
- The electronic accordion (I) cited in Claim 1 or Claim 2 characterized in that the accordion (1) is furnished with pressed key state detection means that detects the state in which an operator (3) of the previously mentioned keyboard section (2) is being operated, and the previously mentioned degree of opening setting means (16) is one in which the degree of opening of the previously mentioned air valve (14) is set in conformance with the pressed key state that has been detected by the previously mentioned pressed key state detection means and the air pressure that has been detected by the previously mentioned air pressure sensor (5).
- The electronic accordion (1) cited in Claim 3 characterized in that the previously mentioned degree of opening setting means (16) is one that closes the previously mentioned air pressure valve (14) in those cases where the number of pressed keys (3) that has been detected by the previously mentioned pressed key state detection means is zero and sets the degree of opening of the previously mentioned air valve (14) to a minimum degree of opening greater than zero in those cases where the number of pressed keys (3) is one or greater and, moreover, the air pressure that has been detected by the previously mentioned air pressure sensor (5) has been detected to be equal to atmospheric pressure, and that sets the degree of opening greater than the previously mentioned minimum degree of opening in those cases where the number of pressed keys (3) that has been detected by the previously mentioned pressed key state detection means is one or more and, moreover, the air pressure that has been detected by the previously mentioned air pressure sensor (5) is a specified value.
- The electronic accordion (1) cited in Claim 4 characterized in that the previously mentioned degree of opening setting means (16) is one in which the degree of opening of the previously mentioned air valve (14) is altered in those cases where the previously mentioned air pressure has exceeded a specified value.
- The electronic accordion (1) cited in any of the Claims 3 through 5 characterized in that the accordion (1) is furnished with speed setting means that sets the speed at which the degree of opening changes up to the degree of opening that has been set by the previously mentioned degree of opening setting means (16), and the previously mentioned control means (21) is one that controls the previously mentioned air valve (14) in conformance with the degree of opening that has been set by the previously mentioned degree of opening setting means (16) and the speed that has been set by the previously mentioned speed setting means.
- The electronic accordion (1) cited in Claim 6 characterized in that the previously mentioned degree of opening setting means (16) sets a first degree of opening in conformance with the pressed key state and the air pressure that has been detected by the previously mentioned air pressure sensor (5) in those cases where the pressed key state has been detected to have changed by the previously mentioned pressed key state detection means, and sets a second degree of opening in those cases where the pressed key state is fixed and the air pressure that has been detected by the previously mentioned air pressure sensor (5) has been detected to have changed, and the previously mentioned speed setting means sets a first speed that changes the degree of opening up to the first degree of opening that has been set by the previously mentioned degree of opening setting means (16), and, after the degree of opening of the air valve (14) reaches the degree of opening that has been set by the previously mentioned degree of opening setting means (16), sets a second speed, and the previously mentioned control means (21) controls the previously mentioned air valve (14) at the first speed up to the first degree of opening during the time that the pressed key state that has been detected by the previously mentioned pressed key state detection means does not change, and, after the degree of opening of the air valve (14) reaches the first degree of opening, controls the air valve (14) at the second speed up to the second degree of opening.
- The electronic accordion (1) cited in Claim 6 or 7 characterized in that the previously mentioned speed setting means is one that sets both the speed in those cases where the degree of opening is increased and the speed in those cases where the degree of opening is decreased.
- The electronic accordion (1) cited in Claim 8 characterized in that the previously mentioned speed setting means sets the speed in conformance with the air pressure that has been detected by the previously mentioned air sensor in those cases where the degree of opening is increased and sets a fixed speed in those cases where the degree of opening is decreased.
- The electronic accordion (1) cited in any of the Claims 6 through 9 characterized in that the previously mentioned speed setting means is one that sets the speed in conformance with the case in which the air pressure that has been detected by the previously mentioned air pressure sensor (5) is greater than atmospheric pressure and the case in which the air pressure is less than atmospheric pressure.
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP2005229175A JP4386287B2 (en) | 2005-08-08 | 2005-08-08 | Electronic accordion |
Publications (3)
Publication Number | Publication Date |
---|---|
EP1752966A2 EP1752966A2 (en) | 2007-02-14 |
EP1752966A3 EP1752966A3 (en) | 2007-04-11 |
EP1752966B1 true EP1752966B1 (en) | 2008-11-19 |
Family
ID=37507314
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
EP20060118591 Active EP1752966B1 (en) | 2005-08-08 | 2006-08-08 | Electronic accordion |
Country Status (3)
Country | Link |
---|---|
EP (1) | EP1752966B1 (en) |
JP (1) | JP4386287B2 (en) |
DE (1) | DE602006003697D1 (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
EP2779154A1 (en) | 2013-03-11 | 2014-09-17 | ROLAND EUROPE S.p.A. | Electrically controlled control valve to control the air stream of a bellows of an electronic accordion |
Families Citing this family (10)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP5827484B2 (en) | 2011-03-29 | 2015-12-02 | ローランド株式会社 | Music control device |
CN102956225A (en) * | 2012-11-13 | 2013-03-06 | 无锡商业职业技术学院 | Electronic accordion |
US9747875B2 (en) * | 2015-10-22 | 2017-08-29 | Tanate Ua-Aphithorn | Accordion and electronic accordion |
US9520112B1 (en) * | 2015-10-22 | 2016-12-13 | Tanate Ua-Aphithorn | Accordion, electronic accordion, and computer program product |
DE102017109702B4 (en) * | 2017-05-05 | 2020-07-23 | Telegärtner Elektronik GmbH | Electronic accordion |
CN110390924B (en) * | 2019-07-31 | 2024-10-08 | 天津华韵乐器有限公司 | Electronic accordion |
IT202000013048A1 (en) * | 2020-06-01 | 2021-12-01 | Beltuna Accordions S R L | SOLENOID VALVE TO CONTROL THE AIR FLOW OF AN ACCORDION BELLOWS |
WO2024024649A1 (en) * | 2022-07-26 | 2024-02-01 | 株式会社バンダイ | Sound generating toy |
JP7286203B1 (en) | 2022-07-26 | 2023-06-05 | バイバイワールド株式会社 | pronunciation toy |
KR102597777B1 (en) * | 2023-03-13 | 2023-11-03 | 김설희 | Portable piano |
Family Cites Families (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US3229020A (en) * | 1964-08-19 | 1966-01-11 | Jenny Georges | Electronic musical instrument |
US3250843A (en) * | 1964-08-19 | 1966-05-10 | Jenny Georges | Electronic musical instrument with fluid pressure actuated volume control |
DE2620843A1 (en) * | 1976-05-11 | 1977-12-01 | Cmb Colonia Management | ELECTRONIC MUSICAL INSTRUMENT |
ITBO20010255A1 (en) * | 2001-04-27 | 2002-10-27 | Roland Europ Spa | METHOD FOR THE ELECTRONIC REPRODUCTION OF THE SOUND OF AN ACCORDION |
-
2005
- 2005-08-08 JP JP2005229175A patent/JP4386287B2/en not_active Expired - Fee Related
-
2006
- 2006-08-08 EP EP20060118591 patent/EP1752966B1/en active Active
- 2006-08-08 DE DE200660003697 patent/DE602006003697D1/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
EP2779154A1 (en) | 2013-03-11 | 2014-09-17 | ROLAND EUROPE S.p.A. | Electrically controlled control valve to control the air stream of a bellows of an electronic accordion |
Also Published As
Publication number | Publication date |
---|---|
EP1752966A3 (en) | 2007-04-11 |
EP1752966A2 (en) | 2007-02-14 |
DE602006003697D1 (en) | 2009-01-02 |
JP4386287B2 (en) | 2009-12-16 |
JP2007047246A (en) | 2007-02-22 |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
EP1752966B1 (en) | Electronic accordion | |
JP2970517B2 (en) | Electronic percussion instrument | |
JPH05165470A (en) | Controller for sound source of electronic musical instrument | |
JPH07104749A (en) | Keyboard musical instrument | |
JP3316517B2 (en) | Keyboard device | |
CN101777342A (en) | Electric keyboard instrument | |
JP2001166773A (en) | Electronic musical instrument | |
JP2629418B2 (en) | Music synthesizer | |
WO2022054517A1 (en) | Electronic musical instrument, method, and program | |
JPH0635449A (en) | Electronic percussion instrument | |
JPH06242781A (en) | Electronic musical instrument | |
JP3602365B2 (en) | Electronic musical instrument | |
JP5318460B2 (en) | Resonant sound generator | |
JP2004361528A (en) | Musical tone signal generator and legato processing program | |
JPH09297577A (en) | Touch display device and sound volume display device | |
JPH06324678A (en) | Simple pitch bender device | |
JPH10198366A (en) | Playing data creating device and electronic instrument | |
JPH0414099A (en) | Electronic musical instrument | |
JP3509120B2 (en) | Electronic musical instrument | |
JPH07152374A (en) | Electronic musical instrument | |
Burtner et al. | EXTENDED PERFORMANCE TECHNIQUES FOR A VIRTUAL INSTRUMENT. | |
US20060283313A1 (en) | System and method for middle c and lower string tone enhancement for an acoustical piano | |
JPH05249969A (en) | Electronic musical instrument | |
Kojs | Piano Case, Keyboard, And Strings: Separation-Derived Musical Instruments In An Interactive Composition | |
JPH11194765A (en) | Sound generation channel controller |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
PUAI | Public reference made under article 153(3) epc to a published international application that has entered the european phase |
Free format text: ORIGINAL CODE: 0009012 |
|
AK | Designated contracting states |
Kind code of ref document: A2 Designated state(s): AT BE BG CH CY CZ DE DK EE ES FI FR GB GR HU IE IS IT LI LT LU LV MC NL PL PT RO SE SI SK TR |
|
AX | Request for extension of the european patent |
Extension state: AL BA HR MK YU |
|
PUAL | Search report despatched |
Free format text: ORIGINAL CODE: 0009013 |
|
AK | Designated contracting states |
Kind code of ref document: A3 Designated state(s): AT BE BG CH CY CZ DE DK EE ES FI FR GB GR HU IE IS IT LI LT LU LV MC NL PL PT RO SE SI SK TR |
|
AX | Request for extension of the european patent |
Extension state: AL BA HR MK YU |
|
RIC1 | Information provided on ipc code assigned before grant |
Ipc: G10H 1/34 20060101AFI20061228BHEP |
|
17P | Request for examination filed |
Effective date: 20071009 |
|
17Q | First examination report despatched |
Effective date: 20071112 |
|
AKX | Designation fees paid |
Designated state(s): DE FR IT RO |
|
GRAP | Despatch of communication of intention to grant a patent |
Free format text: ORIGINAL CODE: EPIDOSNIGR1 |
|
GRAS | Grant fee paid |
Free format text: ORIGINAL CODE: EPIDOSNIGR3 |
|
GRAA | (expected) grant |
Free format text: ORIGINAL CODE: 0009210 |
|
AK | Designated contracting states |
Kind code of ref document: B1 Designated state(s): DE FR IT RO |
|
REF | Corresponds to: |
Ref document number: 602006003697 Country of ref document: DE Date of ref document: 20090102 Kind code of ref document: P |
|
REG | Reference to a national code |
Ref country code: RO Ref legal event code: EPE |
|
PLBE | No opposition filed within time limit |
Free format text: ORIGINAL CODE: 0009261 |
|
STAA | Information on the status of an ep patent application or granted ep patent |
Free format text: STATUS: NO OPPOSITION FILED WITHIN TIME LIMIT |
|
26N | No opposition filed |
Effective date: 20090820 |
|
PGFP | Annual fee paid to national office [announced via postgrant information from national office to epo] |
Ref country code: DE Payment date: 20090831 Year of fee payment: 4 Ref country code: RO Payment date: 20090806 Year of fee payment: 4 |
|
REG | Reference to a national code |
Ref country code: DE Ref legal event code: R119 Ref document number: 602006003697 Country of ref document: DE Effective date: 20110301 |
|
PG25 | Lapsed in a contracting state [announced via postgrant information from national office to epo] |
Ref country code: DE Free format text: LAPSE BECAUSE OF NON-PAYMENT OF DUE FEES Effective date: 20110301 |
|
PG25 | Lapsed in a contracting state [announced via postgrant information from national office to epo] |
Ref country code: RO Free format text: LAPSE BECAUSE OF NON-PAYMENT OF DUE FEES Effective date: 20100808 |
|
REG | Reference to a national code |
Ref country code: FR Ref legal event code: PLFP Year of fee payment: 11 |
|
REG | Reference to a national code |
Ref country code: FR Ref legal event code: PLFP Year of fee payment: 12 |
|
REG | Reference to a national code |
Ref country code: FR Ref legal event code: PLFP Year of fee payment: 13 |
|
P01 | Opt-out of the competence of the unified patent court (upc) registered |
Effective date: 20230509 |
|
PGFP | Annual fee paid to national office [announced via postgrant information from national office to epo] |
Ref country code: IT Payment date: 20230711 Year of fee payment: 18 |
|
PGFP | Annual fee paid to national office [announced via postgrant information from national office to epo] |
Ref country code: FR Payment date: 20240702 Year of fee payment: 19 |