DE4419822A1 - Loudspeaker housing using plastics material for simple mfg. process - Google Patents

Abstract

The housing uses expanded polystyrene for the housing wall, or polypropylene, with a higher density than 50 kg/m<3>.

Description

The invention relates to a loudspeaker housing made of plastic wall material.

Loudspeaker housings prevent lower fre pressure ranges between the front and back the membrane and in this way result in an increase and a Linearization of the frequency response of the sound pressure. Are there Avoid natural resonances of the housing. This is accomplished on the one hand about the geometric construction of the loudspeaker chergehäuses, for example by avoiding level and esp special parallel surfaces. Second is the choice of the wall material with regard to mass and vibration behavior giving.

Usual wall materials for loudspeaker housings are in particular other wood, but also stone, metal and plastic.

In the prior art, plastic is only used as wall material extremely unsatisfactory results. Hard plastics tend to  Natural vibrations, the lack of sufficient internal damping disturb the sound. Try usual Foam materials such as expanded polystyrene The usual density of up to 30 kg / m³ was entirely unsatisfactory.

Have plastics as wall materials for speaker cabinets on the other hand the advantage of any shape. This can lead to Er targeting geometrically favorable and aesthetically appealing housings seforms can be exploited and leads to cheap ones for large series Manufacturing costs with complicated shape design. Given Of the disadvantages mentioned above, plastic can only be used use for cheap speakers with poor sound quality.

The object of the present invention is loudspeaker chergehäuse of the type mentioned, which can be found under Maintaining the advantages of plastic in terms of cheaper Ko should be used in any shape for higher sound quality sen.

This object is achieved with the features of Labeling part of claim 1 solved.

Surprisingly, it has been found that with expanded polysty rol or polypropylene of higher density, especially with densities, as specified in the subclaims, excellent Can achieve sound quality. When using the specified dimensions materials and densities is the resonance and vibration behavior sufficient to achieve higher hi-fi quality. Such materials are also hard enough to do without additional surface treatment sufficient impact and notch resistance for everyday use provide. In conventional superheated steam foaming machines achieve sufficiently smooth surfaces that may even without additional surface treatment, if necessary according to Lac the aesthetic requirements of sophisticated loudspeakers housing is enough. The material strength is sufficient for the at forces occurring at the connection of  Multi-part housing shells or when fastening the speaker chassis on the housing. links can by gluing or screwing, z. B. with for light Wood chips suitable screws can be achieved. Through the The sum of these properties results in the possibility of loudspeaker for aesthetic and acoustic reasons in largely any shape at low cost and with higher To produce hi-fi quality. This finally results in the considerable advantage of a compared to usual wall material lien, such as chipboard significantly lower Case weight that is at least a factor of 4 lower. Everyone who appreciates a bigger one appreciates this advantage Hifi-Box has transported, with which the case weight alone sophisticated construction can be beyond 50 kg.

In the drawing, the invention is exemplary and schematic in a section through an inventive loudspeaker housing shown.

The loudspeaker housing shown is formed in a plane perpendicular to the plane of the drawing separately in two half-shells 1 , 2 , both of which are designed so that they can be demolded in foam molding machines. In the parting plane, the edges of the half-shells 1 , 2 are provided with suitable interlocking folds 3 , 4 , which enable an air-tight connection of the half-shells by gluing or screwing. In the drawing shown in the drawing above half-shell 1 , two mounting openings 5 , 6 are provided, the edges of which fold to form ring-shaped flange surfaces 7 , 8 for receiving two loudspeaker chassis, not shown in the drawing, serving different diameters, which with their outer mounting flange on the Flange surfaces 7 , 8 can be glued or screwed airtight.

The housing formed by connecting the half-shells 1 , 2 has a pear-shaped basic shape, in which the inner surfaces have different curvatures, but are nowhere flat.

This training is beneficial for avoiding internal sound reflections xions. The pear-shaped basic shape is in the version shown Example as an example of an aesthetic design of the Housing selected. When manufacturing the housing in a foam shape can be made any shape, such as B. rectangular Basic shapes with strongly rounded corners and edges, spherical shape, Egg shape or more complicated shapes.

The wooden case shown would be made of green the manufacturing costs impossible. Leave in plastic material any, acoustically favorable and aesthetically appealing For such as the pear shape shown. It is ever but regarding the acoustic properties of the material Vibration behavior, natural resonances, self-damping u. Like note.

It is therefore used as expanded polystyrene or polypro pylene a density greater than about 50 kg / m³ provided. Before In the case of polystyrene, the density is preferably in the range between approximately 70 and 150 kg / m³, with the best acoustic results result in about 100 kg / m³. Polypropylene is the preferred Range at around 50-120 kg / m³ with best results at around 80 kg / m³.

These materials can be used in hot steam foam machines usual technology and easily with largely any shape mass production at low cost. The material points sufficient strength and favorable self-damping behavior on so that it is in for use in speaker cabinets is acoustically "dead", so not from sound to egg vibrations is excited.

With the materials used, the outer surface Chen, for example the housing shown in the drawing very smooth with a correspondingly smooth surface design manufacture so that they can be processed without further processing or after easier Paintwork is salable. The surface hardness is sufficient  corresponding and corresponds approximately to that of chipboard. The material is firm enough to secure the speaker mount housing against the high dynamic forces required Chen holding forces to ensure.

Claims (5)

1. Loudspeaker housing made of plastic wall material, characterized in that expanded polystyrene or polypropylene with a density greater than about 50 kg / m³ is provided as the wall material. 2. Loudspeaker according to claim 1 made of polystyrene, thereby ge indicates that the density is about 70-150 kg / m³. 3. Loudspeaker according to claim 2, characterized in that the density is about 100 kg / m³. 4. Loudspeaker according to claim 1 made of polypropylene, characterized characterized in that the density be about 50-120 kg / m³ wearing. 5. Loudspeaker according to claim 4, characterized in that the density is about 80 kg / m³.