DE479272C - Sound line, especially for sound reproduction devices, speaking machines, electric loudspeakers, etc. - Google Patents

Description

Sound transmission, especially for sound reproduction devices, speaking machines, electrical loudspeakers o. The like. The invention relates to sound lines, in particular for sound reproduction devices, speaking machines, electric loudspeakers or the like. They are sound conductors with reflective surfaces arranged at points of change of direction known, in particular sound conductors with constant cross-section and flat reflective surfaces.

The invention particularly relates to conical sound lines. In such Sound conductors are known to have flat reflective surfaces, but they are not sufficient. According to the invention, the innovation is based on the fact that curved reflective surfaces are used whose curvature or curvature is convex with respect to the incident sound waves and is chosen so that the reflecting sound waves reach the funnel cone in each Fill the cross-section evenly.

Any tone that can flow into a tubular conduit of any cross-section enters, changes its timbre when the sound waves inside the pipes not directed, but reflected in a disorderly manner. This is particularly true in the case of sound conductors with changes of direction, knees or bends.

In the drawing, Fig. I illustrates a cylindrical sound line without specially designed reflective surfaces, Fig. a, a cylindrical sound conduit known type with flat reflection surfaces, Fig.3 the knee of a conical pipe with reflective surfaces according to the invention, Fig.4 with a complete sound line Reflective surfaces according to the invention.

In Fig. I, the sound waves enter in a directed and regulated manner. As soon as a reflection has taken place at the corners, they become mixed up in different colors thrown.

In Fig. Z, in a known way, by introducing flat reflective surfaces at the corners the sound waves are directed through the entire line. The levels Surfaces only guarantee good sound conduction if cylindrical pipes to be used.

It is common, according to the natural reproduction of the Sound to use conical sound pipes. For example, these can take the form as shown in Fig. 4. In Fig. 3, a knee of this sound line is shown enlarged. The reflection surface i is in place of the previously known planar design i 'according to of the invention the impinging sound waves with respect to convex curved so that the Sound waves are reflected in divergent directions so that the angle of Rays is adapted to the angle of the pipe walls.

In the case of such sound lines, there is a noticeable improvement in the timbre compared to conventional conical sound lines, which is probably due to the fact that the overtones and undertones do not drop out. In the case of disordered reflections, such as those indicated in Fig. I, these overtones and undertones are suppressed. For the complete transmission of the tone with its overtones and undertones from direction a to direction b , it is important to attach a widening 2 of the tubes at the inner kink 9 of the knee. This extension: 2 must be such that the cross-section 3 in terms of its area is at least equal to that of the circle q. indicated cross-section. The circle q. indicates the cross section that the larger one, 7, of the two line parts 6, 7 would have at the point where the axes of the two line parts 6 and 7 that meet at the knee 2 intersect. The line part 6 running in direction a would have the smaller cross section represented by the circle 5 at this point. It can be seen that the cross-section 3 goes considerably down to the right beyond the limit which the line parts 6, 7 would result if they were to be carried out up to their point of intersection 9. The widening can also be arranged opposite the bend 9 on the outside by moving the surface i outwards parallel to itself.

The reflection surface i is seen in the direction of reflection convex surface, so it deviates from the plane indicated by dotted lines in Fig. 3 Inclined surface i 'inwards.

The general equation of the cross-sectional curve of the surface in polar coordinates is: if one chooses the starting point of the sound waves as the pole of the coordinate system. The polar coordinates are r and qa. In the above equation is where ß is the angle between the Ra.diusvektor and the Nbrmalen for a particular curve point. c and y are the constants of integration, which are based on given special values of the apparatus.

The correctly chosen shape of the reflective surface i enables the lines 6, 7, 8 (Fig. Q.) With any conicity. The sound is clear the timbre of the human voice or musical instruments seems unchanged. The shape of the surface i can be determined analytically with great certainty. Her Production is expediently carried out with the help of templates.

Claims (2)

PATENT CLAIMS: i. Sound line, especially for sound reproduction devices, Talking machines, electric loudspeakers or the like, with at points of change of direction arranged reflective surfaces, characterized in that the at the points of Change of direction of conical sound conduction parts (6, 7) arranged reflection surface (i) has such a convex curvature with respect to the incident sound waves that the reflected sound waves (b) the subsequent ones, moving in the direction of the sound waves in a known manner widening funnel cone (7) in each cross-section of its entire Fill the interior evenly (Fig. 3). 2. Sound line according to claim i, characterized characterized in that an enlargement (2) is arranged at the kink of the knee is that the cross section (3) of the sound line at this point its area after is at least as large as if the cross-section (5) of the larger cone (7) would be at the intersection of the two cones (6 and 7).