DE19507863C2 - Accordion or harmonica - Google Patents

Description

The invention relates to an accordion or a harmonica according to the The preamble of claim 1 and claim 7.

Such an accordion or harmonica is described in DE 33 01 651 A reported as known. With this well-known harmonica you can use the tone keys an organ connected to the harmonica can be activated. The buttons are over Lever connected to tone keys, and facing the respective lever The rear of each micro switch is arranged on a circuit board Swiveling back the assigned tone flap can be operated to a signal to To respond to the organ. The arrangement of the microswitches with the pla tine requires additional space in the mechanical room and is also of a structural design complex. The installation of such microswitches is retrofitted, if at all,  difficult to do. Also, the microswitches can easily fail, and they also affect key presses.

Another accordion or a harmonica is in DE 34 46 744 C1 as be known. In this known musical instrument, the deflection different levers detected by means of respectively assigned fork light barriers. For each lever operated has its own light barrier. Because the mecha nikraum contains relatively many levers or slides and deflection mechanisms, is the Attaching the light barriers is expensive and only for later installation hardly possible.

DE 20 10 017 B2 and DE 88 10 521 U1 are mechanical contactors proposed for converting the mechanical deflection of actuators Such contactors are also difficult to assemble and affect others on the other hand, by pressing the buttons or buttons while playing.

The invention has for its object an accordion or a harmonica to provide according to the preamble of claim 1 and claim 7, in which the construction and attachment of the device for converting the me mechanical actuation process in an electrical signal even after easy installation are easy, the button operation is not affected and a exact signal generation when pressing a button is guaranteed.

This task is performed in a generic musical instrument with the in the Claims 1 and 7 mentioned measures solved.

With such an arrangement, the elements of the sensor device can with any accordion or with any harmonica be arranged without hindrance, the sensor device having no influence whatsoever  on pressing the buttons. When the buttons are released, the Clay flaps away from the sensor so that immediately when you press the buttons the electronic signal can be detected. The sensor device with the mag netische or optical trigger elements and the associated sensor is there insensitive to interference.

In the alternative embodiment according to claim 7 movement processes can also be detected by actuators by a simple structure, wherein for the group of actuators is only a distance measurement direction with a transmitter and receiver is to be arranged, the measuring section free in the unactuated state of the actuators and in the actuated state corresponding actuator is deflected into the measuring section. This measure Menus also allow a reliable measurement without affecting the key activity to.

Suitable triggering elements and sensors consist in that the triggering element a permanent magnet and the sensor an Ele responding to the magnetic field ment is. Here, the sensor is advantageously a Hall sensor or reed contact educated. Since a register slide that may be present is usually not magnetic is good signaling and conversion is achieved even when the off release element and the sensor itself on the flat sides of the register slide are arranged opposite one another.

As an alternative it can be provided that the trigger element is a light reflecting animal element and that the sensor emits a light and a light has taking element. Even if here a register slide the ent closes the speaking opening of a chamber, this surface can be seen as light reflective elements act like a closed tone key.  

Another possibility for the design of the transducer device is that the trigger element is a light-shielding element and the sensor is a light has barrier and that the light-shielding element, the light of light barrier interrupts when the sound flap is closed.

In the design of the transducer device as a distance measuring device can advantageously as an infrared or ultrasonic distance sensor be formed in which a transmitter and receiver are integrated in the sensor.

The actuators can, in the case of construction, be with the range finder the bass slider of the musical instrument.

The invention is described below with reference to exemplary embodiments took explained in more detail on the drawings. Show it:

Fig. 1 shows a section of the interior of a musical instrument in cross section, in which the attachment of the device for converting the mechanical actuation process into an electrical signal can be seen.

Fig. 2 is a perspective view of a section of the inner space of the musical instrument, in which also the arrangement of part of the transducer device shown

FIGS. 3A and 3B is a schematic representation of actuators, are selected via the single tones,

Fig. 4 shows a further section of the interior of the musical instrument, and which also shows the arrangement of the transducer device, and

Fig. 5 shows another embodiment of a converter device.

The section shown in Fig. 1 of the inside of a musical instrument, such as. As an accordion, showing a floor 5, on one side thereof which is turned toward the bellows chamber, a pin block 3, a register slider 4 and a carrier for a sensor 1.3 arranged sensor 1.2 are arranged, and on the other, facing the mechanical chamber side , a tone key 2 with a Clavis lever 2.1 , a key head 2.2 and a closing side 2.3 are arranged. On the closing side 2.3 of the tone flap 2 , a disk-shaped sealing element is attached, with which an opening in the bottom 5 leading to a corresponding chamber of the tuning stick 3 is sealed.

On the closing side 2.3 of the sound flap 2 , a release element 1.1 is arranged in the area of the opening 3.1 , which together with the sensor 1.2 also arranged in the area of the opening 3.1 forms a transducer device 1 with which the sound flap 2 is deflected via the clavis lever 2.1 an electrical signal is generated. The trigger element 1.1 can be, for example, a permanent magnet, while the sensor 1.2 is a sensitive element that responds to the magnetic field or its change, such as, for. B. a Hall sensor or a reed contact. An optical or electrical converter device 1 is also possible. In an optical converter device, the trigger element 1.1 can be, for example, a reflective surface, while the sensor 1.2 has a light-emitting and a light-receiving element. The register slide 4 , which generally consists of a non-magnetic material, can be pushed between the trigger element 1.1 and the sensor 1.2 , as shown in FIG. 1, without preventing the function of the converter device 1 . In the case of an optical converter device, the surface of the register slide 4 facing the sensor 1.2 can act as a reflecting surface when the register is switched off, the valve slide being closed with the register.

In Fig. 2, the reed block with several chambers and chamber openings 3.1 is shown in perspective. The sensors 1.2 are simply attached to a sensor carrier 1.3 and can be easily mounted with this from the bellows space on the floor 5 in the area of the openings 3.1 . When the reed block 3 is removed, the trigger elements 1.1 can also be easily attached to the closing side 2.3 of the tone keys 2 without levers or sliders or other actuating parts of the mechanical space being in the way.

If a corresponding opening 3.1 is released to generate a sound through reeds 3.2 by deflecting the associated tone key 2 , the sensor 1.2 detects this change in the signal and generates a corresponding electrical signal with which the tone generator of another device reproduces sounds in the desired manner can be.

FIGS. 3 A and 3 B show schematically the operation of the tone keys 2 via keys or buttons 2.5 2.6, the triggering of which is transmitted via a deflecting mechanism 2.4 to 2.1 clavis levers.

In FIG. 4, two adjacently arranged reed blocks 3 are shown. Between the reeds 3 a take-off board 6 is arranged protruding into the bellows chamber, to which the electrical signals of the sensors 1.2 are fed for further processing. The sensors 1.2 can be easily attached by means of a common carrier for both reeds 3 .

Another converter device 10 is shown in FIG. 5. This has a distance measuring device 11 , in which both a transmitter and a receiver are integrated in a sensor device. The sensor device 11 is arranged on the side of a group of bass sliders 20 , and the distance measuring distance I runs along the end face of the bass slider 20 which is displaceably mounted in a guide 21 , the measuring path I extending over the number of bass slides 20 and in the non-actuated state of the bass slide 20 is completely free. If a bass slide is deflected, in Fig. 5 z. B. a, the measuring section I is interrupted at the distance corresponding to this slide a. The detected distance can then be easily assigned to the corresponding tone in an evaluation circuit.

With the measures described, a simple, even subsequent installation of the converter device 1 is made possible. In addition, the trigger elements 1.1 and associated sensors 1.2 are small and inexpensive, so that the subsequent installation of the transducer device 1 can be carried out with little effort, even with smaller, less expensive music instruments.

Claims (9)

1. Accordion or harmonica with a device for converting a mechanical actuation process when generating a sound into an electronic signal, which has a sensor device for detecting the deflection from the sounds associated with the actuators of an actuation device, which levers can be actuated and actuated via the levers, Has respective sound flaps assigned to openings, characterized in that on the sides of the sound flaps ( 2 ) facing away from the levers ( 2.1 ) and facing the openings ( 3.1 ), a magnetic or optical release element ( 1.1 ) and this in the area of the assigned openings ( 3.1 ) a sensor ( 1.2 ) is arranged in a fixed position opposite, which responds to the resulting trigger signal when the tone flap ( 2 ) is deflected. 2. accordion or harmonica according to claim 1, characterized in that the trigger element ( 1.1 ) is a permanent magnet and the sensor ( 1.2 ) is an element responsive to the magnetic field. 3. accordion or harmonica according to claim 1 or 2, characterized in that the sensor ( 1.2 ) is a Hall sensor or a reed contact. 4. accordion or harmonica according to claim 1, characterized in that the trigger element ( 1.1 ) is a light-reflecting element and that the sensor ( 1.2 ) has a light-emitting and a light-receiving element. 5. accordion or harmonica according to claim 1, characterized in that the trigger element ( 1.1 ) has a light-shielding element and the sensor ( 1.2 ) has a light barrier and that the light-shielding element interrupts the light of the light barrier in the closed state of the clay key ( 2 ). 6. accordion or harmonica according to any one of the preceding claims, characterized in that a register slide ( 4 ) between the trigger element ( 1.1 ) and the sensor ( 1.2 ) is arranged transversely. 7. accordion or harmonica with a device for converting a mechanical actuation process when generating a sound into an electrical signal, which has a sensor device for detecting the deflection of the tones associated actuators of an actuating device, which levers and / or sliders as well as the Be actuators operable, associated openings assigned tone keys, characterized in that laterally next to a group of actuators ( 20 ), an electronic distance measuring device ( 10 ) with a transmitter and receiver is positioned such that the measuring section (I) in the unactuated state of the actuators ( 20 ) is free, while in the actuated state the corresponding actuator is deflected into the measuring section (I). 8. accordion or harmonica according to claim 7, characterized in that the distance measuring device ( 10 ) is designed as an infrared or ultrasonic distance sensor ( 11 ), in which a transmitter and receiver are integrated in the sensor. 9. accordion or harmonica according to claim 7 or 8, characterized in that the actuators ( 20 ) are the bass slide of the musical instrument.