DE2063662A1 - Dynamic speaker - Google Patents

Description

Dynamic loudspeaker The% invention relates to dynamic Loudspeaker, i.e.

on built-in speakers with a moving voice coil and so-called ribbon speakers.

It is well known that tweeters have a very pronounced directional characteristic. A rectangular vibrating plate can be used to mitigate this disadvantage or use membrane.

By arranging this plate lengthways, it is undesirable Strong directional characteristic only in the practically insignificant vertical Direction comes about, while the directivity in the horizontal direction is also mitigated will.

An example of this is the well-known ribbon tweeter. Since the air gap of the magnet is wider than the ribbon and this is only made of one only part, the magnetic lines of force cannot be fully exploited, so that there is a very low efficiency. It's a particularly strong one Magnetic field required. Despite its outstanding sound quality, this speaker has practically no significance0 The invention has set itself the task of the disadvantages to avoid the known loudspeaker and in particular a dynamic loudspeaker for the middle frequencies of the audio frequency range. The inventive Loudspeaker is of a relatively simple construction, has the advantages of the thumb speaker and is also suitable for low frequencies. This is achieved through a new construction as well as an improved interaction of the individual Loudspeaker parts For a more detailed explanation of the invention, reference is made to the in Reference is made to the embodiments shown in the drawing.

In the drawing: FIG. 1 shows a perspective view of the essentials Parts of a dynamic loudspeaker according to the invention in a first embodiment, Fig0 2 is a vertical longitudinal section through this embodiment, Fig. 3 is a Plan view of the essential parts of a second embodiment of the invention Loudspeaker, Fig. 4 as a third embodiment a ribbon loudspeaker, Fig. Fig. 5 is an expanded front view of the connecting portion of the vibrating plate or the iiembran of this ribbon speaker, Fig. 6 is a front view of the connecting portion of the vibration plate according to FIG. 5 in the bent state, 7 shows an enlarged section through this, FIG. 8 shows a perspective view of the connecting portion of the vibrating plate of the ribbon speaker in one fourth Ausfahrungsfornl, Fig. 9 is a perspective view of the connecting portion the vibraton plate in a fifth embodiment, FIG. 10 a sixth embodiment this connection section in a perspective view, FIG. 11 a partial sectional front view of a seventh embodiment of the ribbon loudspeaker, FIG. 12 shows an enlarged partial section through this embodiment, FIG. 13 shows a partial longitudinal section and a front view of an annular loudspeaker as an eighth embodiment of the invention and FIG. 14 shows a planar, enlarged partial section this embodiment.

The first embodiment according to FIGS. 1 and 2 shows a permanent magnet 11 with magnetic poles 12 at its ends. The two magnetic poles 12 close one narrow air gap 16 a 0 A movable voice coil 13 is as thin, flat Wrapped rectangle. A vibrating plate or diaphragm 14 is at the front end or the end face of the voice coil 13 fixed. The oscillating plate 14 is in turn at the corners with supports 15 made of elastic material on the poles 12, for example glued on. A certain part of the current direction of the rear half of the voice coil 13 is located in the air gap 16, while the front half of the air gap 16 protrudes. By appropriate distance between the voice coil 13 and the Pole 12 ensures that the voice coil can move freely in the air gap can without touching the magnetic pole.

According to FIG. 2, the voice coil 13 has rectangular turns 18 printed on both sides of a flat base plate 17 made of suitable insulating material. The production can also be done in a flat plate, the rectangular coiled wire in an insulating plastic or the like for stiffening is embedded. There is also the option of using the wire with its rectangular shape Gluing turns as a flat winding on one side of an insulating plate, or also to be arranged between two insulating plates. It is essential that it is as thin as possible or flat version.

The coil 18 of the first embodiment is provided with lead wires 19 and 20 provided. If the voice coil 13 is given a corresponding audio frequency Current to, so it moves together with the oscillating plate 14. In the case of the one shown Embodiment, the air gap 16 can be made smaller than in conventional loudspeakers will. Because the rear half of the voice coil 13 with the current constant direction lies in the air gap 16 and the front half with the opposite direction of flow protrudes from the magnetic field of the air gap 16, a loudspeaker is obtained in this way with excellent sound reproduction quality and high efficiency. As a result of the elongated Vibration plate, the horizontal directivity is reduced. The simple construction allows an equally simple production, so that the loudspeaker as a result its low production costs are particularly suitable for mass production.

In the second embodiment according to fig. 3 are two permanent magnets 21 arranged so that at the air gaps 22 and 23 there are two unequal namidge Poles are opposite. The right half of the flat voice coil 24-pin rectangular Qwinds is in the right air gap 22, while the left half is the voice coil 24 lies in the left air gap 23. On the two end faces of the voice coil .4 are Schwingplatteri 2) and 26 fixed similarly to the first embodiment.

The oscillating plates 25, 26 are outside the magnets 21 with supports made of elastic haterial, such as rubber, attached.

The voice coil 24 can thereby free in the air gaps 22 and 23 swing. The direction of flow in each air gap is defined accordingly. Man thus receives a duplex loudspeaker that radiates on both sides and otherwise has similar characteristics as the first embodiment. The execution forms 4 to 13 relate to ribbon speakers.

The third embodiment according to FIGS. 4 to 7 shows a permanent magnet 31 with two poles 32. The connecting portion 33 of the vibrating plate is as follows executed. Above all, it is the drive plate 35 that carries the electric current in a suitable way, for example as a printing plate made elongated, by vacuum evaporation, or the like, in the middle of the rectangular base plate 34, which according to Fig. 5 is made of paper or some other insulating material. The connecting wires 36 and 37 run in opposite directions and form with the drive plate 35 a part.

The drive section 39 holds the drive plate 35 by the base plate 34, as mentioned above, is yelolded in the middle to the rear (FIG. 7). The two Sides of the drive part 39 are open on both sides and bent backwards and form fastening parts 38.

The drive part 39 of the connecting portion 33 of the vibrating plate is inserted in the air gap 4u between the poles 32 (Fig. 4). dThe fasteners 3a are attached with supports 41 on each outer side of the magnetic poles. The base of the drive part 35 is fastened to the two Bagnet poles 32 at the front There the supports 42 are made of elastic material such as rubber, the drive part can 39 swing freely in the air gap 40. At the same time it becomes without the magnetic poles too touch, held in the third of the LuStspalts. The part between the drive part 39 and the fastening part 38 form the vibration plate 43.

If you have the drive plate 35 via the lines 36 and 37 a audio-frequency current feeds (in the above-mentioned third embodiment) so the drive bar 3-5 and the drive part that is made of one piece and vibrating the vibrating plate 43 on both sides thereof.

In this third embodiment, the drive plate 35 and the drive part 39 can be made thinner so that the air gap 40 is narrower and the area of the vibrating plate 43 can be larger, resulting in a more powerful Loudspeaker results.

Since the line 36 with the oscillating plate 43 consists of one piece, the impairment of the sound quality that the known loudspeakers are avoided cause lines leading to the drive part. You get a loudspeaker with just as good sound quality as with the usual ribbon loudspeaker, with difficulties cannot occur due to interruption of the line wires. Besides, the Loudspeakers of simple construction and inexpensive to manufacture.

The fourth embodiment according to FIG. 4 has a circular arc Oscillating plate 43. Also, the width of the oscillating plates on both sides is between them different.

Otherwise, this loudspeaker is identical in construction to the third Embodiment according to FIG. 4 corresponds. The drive part 39 and the lines 36 and 37 are designed essentially as in FIGS.

The fifth embodiment according to FIG. 9 is similar to the third embodiment with the exception that the oscillating plates 43 are conical, circular on both sides and that the size is different on each side.

The sixth embodiment according to Fig. Lü is similar to that designed according to FIGS. It differs from this only in that the two above and below are connected to the drive plate 35 on the base plate 34 Lead wires 36 and 37 point to the left in this case.

In the seventh embodiment according to FIGS. 11 and 12 there are several Drive parts and vibrating plates arranged in parallel.

In particular, the drive plate 51 consists of several in this case elongated electrical conductors on the band-shaped base plate, such as one Paper strips spaced apart by means of a circuit board or the like.

The drive plates 51 are connected in series in which each drive plate 51 are connected alternately at the top and bottom to the lines 52 and 53, the consist with the drive plate 51 of the same material.

The connecting section 64 of the vibrating plate according to FIG. 12 is created in that the base plate, as mentioned above, on the part of each drive plate 51 according to is folded at the back so that, as shown in FIG. 12, several drive plates 54 are formed, while the part between two drive parts becomes the oscillating plate 55.

Assuming in the seventh embodiment that the number of Drive parts 54 is equal to n, the number of oscillating plates is n + 1.

In Fig. 11 the two magnetic poles of the side permanent magnet are found 62 above and below. The magnetic poles 56, 57 jump from permanent magnets 62 above and after the page forward.

Magnetic members are attached to these magnetic poles 56, 57 above and below 58 and 5L mowed. The nose-shaped magnetic poles jump from each link 58, 5 6u, 61, which are spaced apart. Between the magnetic poles 6O, 61 there are air gaps 63 (the magnetic poles 60 and 61 are different Polarity).

In this embodiment, each drive part 54 of the connecting portion sits 64 of the oscillating plates in the air gaps 63 between the magnetic poles 60 and 61. The base part of the drive part 54 is attached to the front of each magnetic pole, wherein the support 65 is made of an elastic material such as rubber or the like. The drive part 54 is held centrally in the air gap 63. It can be freely in the air gap 63 does not vibrate and does not touch any of the magnetic poles 60 and 61.

In addition, the connecting part 66, which by bending back the two Ends of the connecting portion 64 of the vibrating plate has arisen, with suitable Supports 67 attached to the outside of the outermost magnetic pole 61.

: In the seventh embodiment described above, the current direction is of the stream flowing through adjacent drive plates 51 alternately reversed. However, there is also the direction of the magnetic field in the adjacent ones When the air gap changes, all vibrating plates are moved in the same direction.

In the seventh embodiment described, you can not only achieve the same effect as in the third embodiment, but it is possible also enlarge the entire area of the vibrating plates sufficiently. Furthermore, one can move a large number of Schwiny plates over a larger area at the same time, so that a superior effect is obtained in the deep range. Still is a Such a powerful loudspeaker can be manufactured easily. The seventh embodiment is designed in a straight line according to FIG. In contrast, the eighth embodiment is according to the fig.

13 and 14 bent in a circular or ring shape in one plane. Furthermore this embodiment corresponds to the seventh embodiment. Because the individual Parts of this curved embodiment are again flat, the reference numbers could 11 and 12 are adopted.

This eighth embodiment has in addition to the seventh Embodiment described above share the advantage that a larger Directional range is detected.

Claims (6)

P a t e n t a n s p r ü c h e 1. Loudspeaker with at least one in the air gap between the poles a magnet arranged voice coil, characterized by a flat, rectangular sindungen having voice coil, the rear half of which can vibrate in the air gap of the magnet is arranged while the other half of the voice coil is in front of the Air gap, and secured by a to the leading edge of the voice coil Oscillating plate made using elastic at the front of the pole Material made supports is attached. 2, loudspeaker according to claim 1, characterized in that the two Ends of a flat voice coil can vibrate in two air gaps from two to one another opposing magnetic poles of different polarity are inserted, wherein the two ends of the voice coil protrude outward from each air gap and oscillating plates are attached to them, and each oscillating plate is made of elastic Material existing supports on the outside of the magnetic pole at a suitable distance is appropriate. 3. Loudspeaker according to one of the preceding claims, characterized by a connecting portion of the vibrating plate, wherein the drive part with rectilinear electrical conductors in one piece on the control part of the base plate made of electrical Insulating material is arranged by connecting conductive line parts with the top and bottom of the drive plate in one piece above and below, whereby the drive part is folded back and shaped so that its two sides face both sides open and form vibrating plates, through an air gap between two Poland, where the Drive part of the connecting part of the vibrating plate Is used oscillating and by supports made of elastic material for the bracket the base of the drive part in front of the air gap. 4. Loudspeaker according to one of the preceding claims, characterized by several air gaps between several pole pairs, by a connecting section of the oscillating plate9 in which several drive parts and oscillating plates alternate in parallel are arranged, each drive part of this connecting portion of the vibrating plate is inserted with a suitable gap in each air gap so that it can vibrate, and by supporting the base of each drive part in front of the air gap using elastic supports0 5. Loudspeaker according to claim 4, characterized in that a curved arrangement is selected. 6. Loudspeaker according to claim 4, characterized in that one annular arrangement is vorgesenen. L e r s e i t e