CZ6729U1 - Two-repetitive piano action with vertically arranged sounding-board - Google Patents

Description

Technical field

The technical solution relates to double-pianos of pianos with vertically arranged sound board and keyboard, where each key is assigned a hammer, damper and means to control them.

Background Art

Up to now, pianos with a horizontally arranged sound board, the so-called fortepiana or wings, and pianos with a vertical sound board, the so-called upright piano, are known. However, upright pianos do not have the ability to create a musical tonal effect, the so-called tocco magico, which consists in virtually distributing the increased amount of energy needed to obtain the harmony of harmonious chords coming from the strings induced by the tone.

Furthermore, upright pianos are known which are provided with an improved mechanism to provide said sound effect. Their disadvantage, however, is the complexity of their mechanics and, moreover, the failure to achieve the desired harmonics.

Finally, the solutions of piano mechanics, resp. upright pianos, where the design problem of desirable power transmission is solved by magnets or electromagnets and various electronic controls. However, even this combination of mechanics with electronics does not solve the problem of the described sound effect satisfactorily, respectively. in some known cases at all.

The aim of the technical solution is to solve the above problem by means of a new construction of the piano mechanics, which is to be as simple as possible and thus as reliable as possible.

Since the aim of the technical solution is to implement a mechanism with functional mechanics for pianos with a vertical sound board, it must be possible to easily control two distances without creating spatial problems or interference.

The essence of the technical solution

The aforementioned drawbacks are largely eliminated by the technical solution of double-pianos of pianos with a vertically arranged sound board, the principle of which is that each key is provided with a pusher pin connected to a sloping clutch arranged rotatably to a support that contacts the hammer via a drum. Further, a first first release lever, a second connector, and a second second offset lever are provided to the carrier.

The first lever of the first detachment is fixed to the support and a stopper formed by the first cone is attached thereto, the first lever being provided with a first adjusting screw and a second lever with a second adjusting screw for the two detents. A spring is provided on the second coupling, which is in contact with the first lever and the second lever.

-1CZ 6729 Ul

The advantage of the mechanics solution is its simplicity in addition to meeting the sound effect requirements. This results in the reliability of the entire piano mechanics.

Another advantage is the relatively low cost of mechanics caused by both simple manufacturing and the use of readily available and inexpensive materials for construction.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 shows the technical solution of the double-retention mechanism in a side view and a partial cross-section in the rest position, and FIG. 2 shows the same mechanism in the working position when the key is pressed.

Example of a technical solution

FIG. 1 shows a key 1 which is movably mounted to the keyboard frame 2 by means of a rounded rod 12 and unmarked standard damping elements. The same applies to black key 3. ·

The key 1 is provided with a pusher pin 4, suitably aligned, which is in its upper portion cylindrical in shape with a rounded head. The sloping connector 5 has a concave shape in the lower part, in which the felt 11 is located, which dampens the contact with the pressure pin 4.

The movable sloping clutch 5 is secured to the first clutch 7, which is releasably connected to the carrier 6. A first gripper 23, which moves together with the second gripper 24 mounted on the rail 25 of the hammer 15, is supported on the carrier 6. FIG.

The clutch 26 accommodates a first cone 13 for adjusting the stop of the first lever 9 pivotally connected to the carrier 6. The first lever 9 is further in contact with the hammer 15 by the drum 14.

The oscillating movement of the hammer 15 is hindered by a hammer felt in the ending phase.

The piano mechanism is further provided with a second clutch 8 which is arranged in the central portion of the carrier 6a and is provided with a spring 16 in the form V, the ends of which act on the first lever 9 of the first spacing and the second lever 10 of the second spacing.

The first lever 9 is provided with a first adjusting screw 20 and the second lever 10 is provided with a second adjusting screw 21 to adjust both distances.

The drive is equipped with an oscillation control system consisting of an ^M L ^M shaped shock absorber 28 coupled to an unmarked damper pedal.

The damper 28 is provided at one end with a metal first spoon 18 which is in contact with the lower portion of the damper lever 17 and the second spoon 19, which rests on the key 1, alternatively provided at the point of contact of the felt.

Fig. 2 shows the two-stem mechanism of Fig. 1

-2C 6729 U1 in working position, ie when the key 1 is depressed.

The function of the double-retention mechanism according to the invention consists in reliably ensuring the transmission of the strike to the key 1 on the string 22 with the desired double separation.

The thrust pin 4 transmits, with its rounded head, oscillation from the key 1 to the movable sloping clutch 5, which acts as a lever and is considered to be a constant energy leak lever. The inclined movable coupling 5 is dimensioned and designed to achieve high mechanical performance of the kinematics acting on the hammer strokes at the right angle with the first lever 9.

All the elements that make up the mechanics allow the strings to strike a constant intensity, whatever the dynamic pressure on key 1, or more consecutive pressures.

The method of transmission between the key 1 and the string 22 and the function of the individual elements is further evident from the difference in their position in Figure 1 and 2.

Within the technical solution it is possible to add or modify individual elements of the double-breathing mechanics, eg by adding a damping layer, replacing the material from which they are created, changing their dimensioning and the like.

Industrial usability

The two-pianos pianos mechanics with vertically arranged sound board can be used in all upright pianos with classical mechanics, or in combination with electronic elements and controls.

Claims (7)

PROTECTION REQUIREMENTS Double-grand piano mechanism with a vertically arranged acoustic board and keyboard, each key being assigned a hammer, mute and means for controlling it, characterized in that each key (1) is provided with a push pin (4) in contact with an inclined a coupling (5) rotatably mounted to the carrier (6), wherein a first coupling (7) and a first lever (9) of the first detachment, as well as a second coupling (8) and a second lever (10) of the second delay. Double-repeat mechanism according to claim 1, characterized in that the first lever (9) of the first detachment is rotatably attached to the carrier (6) and is associated with an adjustable stop formed by the first plug (13), the first lever (9) being provided with the first adjusting screw (20). Double-repeat mechanism according to claim 12, characterized in that the first lever (9) is in contact with the hammer (15) by means of a drum (14). Double-repeat mechanism according to claim 1, characterized by 6729 U1 by the second lever (10) of the second detachment being provided with a second adjusting screw (21), the second coupling (8) being provided with a spring (16) which contacts the first lever (9) at its ends and by the second lever (10). Double-repeat mechanism according to claim 1, characterized in that the key (1) is in contact with the damping lever (17) by means of an L-shaped damper (28), the ends of which are provided with a first spoon (18) and a second spoon (19). . Double-repeat mechanism according to claim 1, characterized in that each key (1) is arranged to the keyboard frame (2) by means of a rounded rod (12). Double-repeat mechanism according to claim 1, characterized in that the push pin (4) of the key (1) is formed by a round-head screw, in contact with the inclined clutch (5) by means of a felt (11) arranged in the bulge of the inclined clutch