DE2916281A1 - Tweeter with exponential horn - coupled to pressure chamber driven by domed diaphragm covered by drilled cap for two mode coupling - Google Patents

Abstract

The short exponential horn of a tweeter has a throat diam. of 22mm and is driven by a 'skull cap' diaphragm attached to a speech coil suspended in a ring magnet gap. A domed disc, 16.5mm diam., with the same contour as the skull cap, is held by 4 webs at a spacing of 0.3mm above it. This forms a pressure chamber, coupled to the horn by the annular gap between it and the disc. Further coupling, along the axis of the horn, is provided by a 3.5mm hole drilled in the centre of the disc. The gives a frequency response flat within 2dB from 2kHz to 20kHz. The l.f. response is improved by drilling the magnet pole piece to couple the back of the diaphragm to an air space containing a sound absorber.

Description

Print camera loudspeaker with horn

The invention relates to a horn horn loudspeaker, in particular Exponential horn, the interior of aes horn with the pressure chamber via an annular gap Stands in connection, the inner edge of which is limited by a sound guide body is.

In known loudspeakers of this type, the sound guide body is cone-like formed, with the base surface of this cone at the narrowest point, the neck of the horn, and the cone extends inside the horn up for example extends to half its length, so that the annular gap extends over the length of the cone gradually expanded and at the end of the cone into the circular cross-section of the The interior of the horn. The well-known speaker is because of the inside of the horn arranged cone expensive to manufacture.

The invention is based on the object of avoiding this disadvantage. This object is achieved according to the invention in that the sound guide body is designed essentially as a disc, and that the disc is an interior of the horn with the pressure chamber connecting recess.

The advantage of the invention is that because of the cone can be omitted, the production of the loudspeaker is considerably easier. Further it has been shown that the invention also makes it possible to use the frequency range of the Loudspeaker to expand: While known loudspeakers with an upper frequency limit up to 20,000 Hz according to DIN 45500 sheet 7 a more or less pronounced drop in sound pressure from 10,000 Hz, which at 12,500 Hz is already 8 dB compared to 1000 Hz can, the loudspeaker according to the invention, like the embodiment described later shows can be designed without difficulty so that its frequency range up to 20000 Hz within a tolerance of + 2 dB pure because of the presence of the recess the column of air in the area of the neck of the horn is not just in the area of the relative to the neck cross-section only having a relatively small cross-section having an annular gap stimulated, but also in an area that extends from the annular gap to the axis of the horn is offset. The operation of the invention is possibly based on the fact that by this additional excitation of the air column, which with it excitation in the area of the annular gap is essentially in phase, a largely uniform excitation of the air column, which prevents the formation of eddies is made possible.

In one embodiment, the recess can be the egg. Invention as a slot open to the edge of the disc is formed, the shape of the slot can be chosen appropriately.

In another embodiment of the invention i-t 4 from savings on the other hand, designed as a hole, so has no connection with the annular gap.

In a preferred embodiment of the invention, there is a single arranged centrally to the annular gap there is a hole provided.

The optimal diameter for the particular application or more generally Cross-section of the hole or the recess is expediently determined by experiments determined. If the diameter of the hole is too small, it is that caused by the hole Additional excitation of the column of air is too low, if the diameter is too large, it takes place too great a drop in the excess pressure caused by aie pressure chamber, whereby the benefit of having a pressure chamber, namely increased efficiency the speaker would be lost.

In one embodiment of the invention, in which the membrane of the loudspeaker al Kalüttenmembran is formed, is the membrane facing surface of the disk adapted to the curvature of the membrane. This causes the eggs to vibrate the volume change occurring between the membrane and the membrane facing surface of the disc burned space can be maximized because the membrane of the area mentioned everywhere except for one, among other things, reasons of clarification still required minimum distance of, for example, 0.2 mm, whereby a high pressure increase is possible, and this can also be achieved through the recess caused additional stimulation of the air column in the horn would be an advantage.

In one embodiment of the invention in which a dome membrane is used, this membrane has a dome in a manner known per se ring-shaped surrounding area with an arcuate cross-section, and the wall the pressure chamber is arranged closely adjacent to the annular area and on adjusted its curvature. This also results in the greatest possible pressure increase favored.

Since the loudspeaker according to the invention, for example, up to an upper Frequency limit of 20,000 Hz with a tolerance of 2 dB should be used, it can happen that due to the peculiarities of a certain Loudspeakers used a membrane within the sound pressure curve plotted against the frequency there is a slight drop in level at high frequencies. It was found that such a drop in level can easily be corrected by the fact that the exponential horn is designed with a smaller diameter expansion per unit length than Up to now common, the exponential horn is made slimmer and if necessary slightly elongated compared to the known horn. While the familiar horn is a Has an increase in diameter of exp 27 per meter, it has proven to be advantageous to work with a diameter expansion of about exp 16 per meter.

In addition to the transmission range of the loudspeaker according to the invention to expand to low frequencies, is in one embodiment of the invention, at the speaker has a ring magnet, the core of the Ring magnet, which is in the voice coil of the designed as a dynamic loudspeaker Speaker immersed, pierced, and on the side of the facing away from the membrane Ring magnet is an air-filled magnet that communicates with the bore of the core Arranged chamber, so provided an air volume coupled to the rear. Through this the effective restoring force for the membrane is reduced and thus the resonance frequency the suspension shifted towards lower frequencies; It can be useful to arrange damping material in the chamber to prevent undesired resonances, for example air-permeable felt. The measures outlined make this Horn has less distortion in its lower frequency range. It goes without saying that the The lower limit frequency of the loudspeaker does not only depend on the suspension resonance.

Further features and advantages of the invention emerge from the following Description of an embodiment of the invention with reference to the drawing, which Inventive details shows, and from the claims. The individual features can be used individually or in groups in any combination with one Embodiment of the invention embodies a. Show it: Fig. 1 shows a simplified longitudinal section through the Macnet system of an exemplary embodiment a loudspeaker according to the invention, FIG. 2 shows a section along the line II-II in Fig. 3 by a flange piece that r1it the diaphragm together with the pressure damper forms, compared to the scale of Fig. 1 and, enlarged to twice, Fig. 3 shows a plan view of the part shown in FIG. 2 in the direction of arrow III, FIG. 4 shows a longitudinal section through the exponential horn of the loudspeaker and FIG. 5 shows a Representation of the frequency response of the loudspeaker according to the invention.

The core 2 of the magnet designed in a known manner as a ring magnet 1 has a central through hole 3, and also are from the ground 4 of the magnet four holes 5 are made parallel to the hole 3 in the magnet 1, which open into a cavity 6 surrounding the core 2; with this cavity 6 stands in turn, the annular air gap 7 of the magnet 1 in connection. On the lower, the part of the magnet facing away from the air gap 7 is a plastic cap 8 that closes tightly placed, the bottom 9 of the bottom 4 of the magnet 1 at a distance of im example 11 mm, and in the chamber 10 thus formed is a disk made of air-permeable 1 "IlZ 11 inserted for damping resonances. Through the chamber 10, which is connected via the Bore 3 and the bores 3 with the underside, so that facing the magnet Side of the membrane to be described is connected, causes the hardness of the air cushion acting on the underside of the membrane due to the enlargement the volume of air communicating with the underside of the membrane is reduced and thereby the suspension resonance frequency of the diaphragm is reduced.

The part 15 shown in Fig. 2 is in the ready assembled: pten loudspeaker on which the cap 9 facing away from the magnet 1 is placed so that the top 14 of the magnet rests tightly against a surface 16 of the part 15.

Legs designed as a dome membrane membrane 20 has a central one Dome-shaped section 21 and a section surrounding this annularly 22, which in cross section is an arcuate one directed outwards, that is to say away from the magnet 1 Course, as Fig.

shows. A voice coil connected to the diaphragm 20 in a known manner 23 dips into the air gap 7.

The membrane 20 is held in part 15 in that its edge 25 between an annular shoulder 26 aes part 15 and a retaining ring 27 is clamped, the underside of which is in turn supported on the upper side 14 of the magnet 1. That Part 15 is attached to the magnet 1 by screws, not shown, through Go through screw holes? 0.

The part 15 carries a threaded connector 31 with an internal thread, at with the fully assembled loudspeaker an exponential horn 32 (Fig. 4) with a Thread 33 is screwed on. The neck 34 of the exponential horn 32 goes without a jump in diameter in a substantially circular recess 35 of the part 15, which is a length of mm and a diameter of 22 mm. Centered within the recess 35 a disk 38 is held by four webs 40, the ends of which are directed outwards merge into the wall of the recess 35. The disk 38 shows in plan view 3 has a circular outline, it is similar to a spherical shell segment, however points in its central area, thus in the vicinity of the axis of the whole Loudspeaker arrangement, its greatest thickness and is according to its outer edge getting thinner. This greatest thickness is 0.5 mm in the exemplary embodiment. The curvature the inner surface 42 of the disk 33 facing the membrane 20 is preserved in such a way that they from the central dome-shaped portion 21 of the membrane 20 one substantially maintains an even AD-stand, in the resting state this distance is 0.3 mm.

Exactly in the center of the disk 38 is a precisely in the axial direction Loudspeaker assembly provided extending hole 4X penetrating disc 38; the hole 44 has a diameter of 3.5 mm, so it only takes up a small area of the total area of the disk 58. The outer edge 46 of the disc j8 has from the Wall of the recess 35 a distance of 2.75 mm. This one between the pane 38 and the recess 35 existing annular gap 48 is only through the four webs 40 interrupted. The drawn in Fig. 3 section II-II is placed so that in left part of Fig. 2, this annular gap is visible in the right part one the webs 40. The web 40 has a width of 2 mm and a height of 2.5 mm visible in the section of FIG. 2. The membrane 20 facing away outside 50 of the web, 40 is aligned with the furthest outside Set disk 38 and is 0.5 mm closer to membrane 20 than that of membrane 20 remote end of the wall of the A recess 35.

The diameter of the disk 38 is 16.5 mm and thus: almost 1 L as large as the diameter of the dome-shaped portion 21 of the membrane 20, the is equal to the diameter of the voice coil 25 and is 1.5 mm. The ring-shaped one Section 22 of the membrane 20 i: t from the outside somewhat more than up to half the width covered by an inwardly directed annular projection 54, the coaxial The cylindrical surface running on the axis of the entire loudspeaker arrangement Forms the outer surface of the recess 35. The portion 22 of the membranes 20 facing Surface 556 of projection 54 is rounded with a radius of 2 mm, like the cut Fig. 2 shows; as a result, this inner surface 56 runs in the region of its curvature at only a slight distance from the annular section 22 of the membrane. The curved one Inner surface 56 anyway in the direction of the axis 60 of the entire loudspeaker arrangement to into a flat area running parallel to surface 16, as shown in FIG. 2 shows, and in this area the distance decreases in the direction of the axis cû to between the flat portion of surface 56 and the annular portion 22 of the membrane again to. As FIG. 2 shows, both a part is through the annular gap 4b of the annular section 2 as well as the outermost part of the dome-shaped Section 21 of the membrane 2Q visible.

The loudspeaker pressure chamber is through on one side the membrane 20 limited, on its other side by the rigid surface 56 and the also rigid surface 42. The volume of the pressure chamber is sufficiently small to prevent interference at high frequencies.

The openings of the pressure chamber through which the air in the exponential horn Vibrations are excited through the annular gap 48 and through the hole ; educated. The largest diameter of the pressure chamber thus corresponds to the outer diameter of the annular section 22 of the membrane and is 29.5 in the exemplary embodiment mm.

The exponential horn shown in longitudinal section in FIG. 4 has a length of 73.7 mm, its diameter is 22 mm at the neck and 72.9 mm at the mouth. The constant a, which determines the diameter expansion of the horn according to the formula d = do.exp (al) where d is the diameter of the horn at a distance 1 from the neck of the Horns and do the diameter at the neck, i.e. the narrowest part of the horn, is in the exemplary embodiment 16.3 / ru.

Fig. 5 shows the frequency curve of the sound pressure, measured in a Meter distance with an electrical power of 1 W at an equivalent resistor from 4 4.

In FIG. 5, the level values and the frequencies are plotted as 5 shows, the curve is approximately between 2,000 and 20,000 Hz at one level from 100 dd almost linear.

Even if there is one instead of the exponential horn shown in FIG is used, which with the same initial diameter with a constant a = 27.4 / m calculated where the length of the horn is 30 mm shorter than the horn shown in Fig. 4 results in the loudspeaker according to the invention a considerably improved frequency curve compared to known loudspeakers, the up to 20 kHz.

The magnet 1 has an induction of 16,000 Gauss (1, T).

The membrane 20 is made from an embossed plastic film. The inside diameter of the chamber 10 is approximately 53 mm.

Claims (6)

Claims pressure chamber loudspeaker with horn, in particular exponential horn, the interior of the horn communicating with the pressure chamber via an annular gap stands, the inner edge of which is delimited by a sound guide body, characterized in that that the sound guide body is designed essentially as a disc (38), and that the disc connects the interior of the horn (32) with the pressure chamber Has recess (44). 2. Loudspeaker according to claim 1, characterized in that the recess is designed as a slot open to the edge of the disc. 3. Loudspeaker according to claim 1, characterized in that the recess is designed as a hole (44). 4. Loudspeaker according to claim 3, characterized in that a single, central to the annular gap arranged hole (44) is provided. 5. Loudspeaker according to one of the preceding claims, wherein the The membrane of the loudspeaker is designed as a dome membrane, characterized in that that the membrane (20) facing surface (42) of the disc (38) of the curvature of Membrane is adapted. 6. Loudspeaker according to one of the preceding claims with a designed as a dome membrane, characterized in that the membrane (20) in on in a known manner the dome (21) is ring-shaped surrounding area (22) having an arcuate cross-section, and that the wall (56) of the pressure chamber is arranged closely adjacent to the annular region and is adapted to its curvature. 70 loudspeaker according to one of the preceding claims, characterized in that that the exponential horn (32) has an increase in diameter per meter that is substantial is less than exp 22 and is preferably about exp 16. d. Loudspeaker according to one of the preceding claims, having a Ring magnet, characterized in that the core (2) pierces the magnet (1) and that on the side of the magnet facing away from the membrane (20) one with the Bore (u) in the core communicating air-filled chamber (10) is arranged.