DE2854899A1 - Loudspeaker box with adjustable resonance - has tubes reducible in length until desires resonant frequency is attained as measured across resistor - Google Patents

Abstract

The loudspeaker box contains tubes that can be cut until the desired resonant frequency is obtained. The tubes are fitted deliberately oversize to allow their lengths to be reduced by cutting. The tubes connect the inside to the outside surface of the box, and are made of e.g. wood, plastics or light metal. The loudspeakers are driven by an a.c. signal of variable frequency but constant voltage. The resulting acoustic resonant frequencies of the driving and oscillating parts are measured as impedance maxima (voltage maxima) at a resistor connected into the loudspeaker circuit. The tubes are then shortened until the desired resonant frequency is attained.

Description

"Loudspeaker housing with adjustable

Resonance frequency and method for adjusting the frequency ".

The invention relates to housing for woofer in the form of matched Helmholtz resonators, as they are known under the term "BaßrefLex'box" are whose resonance frequency, according to the invention, matches the natural frequency of the built-in Loudspeaker systems or to the acoustic properties of the playback room afterwards can be adjusted, as well as a method for rational adjustment of the frequency.

In the case of woofer diaphragm loudspeaker systems, the transferable lower Cutoff frequency is known to be due to the natural frequency of the oscillating system and through the length of the path l between the front and back of the vibrating membrane is limited. If the length 1 is less than half an acoustic wavelength, then occurs "Acoustic short-circuit" with extinction of the radiation in appearance.

In practice, sufficient path lengths can be achieved because of the. geometric Seldom realize the minimum size of the housing. One therefore chooses in the simplest case closed housing and takes the reduced active power and increased natural frequency due to pneumatic damping and increasing rigidity of the enclosed air cushions in purchase.

Another solution is offered by open housings with an acoustic delay path eUmwegleitungent, the length of which is 1 for the lower limit frequency at the speed of sound c 1 =: c / 2 u. Their disadvantage is that with odd multiples of 1/4 of the acoustic wavelength is an anti-phase radiation with acoustic cancellation entry.

There are still known open housings that are probably small in volume own, but avoid the disadvantages of the aforementioned versions by using act as Helmholtz resonators by means of an open, matched pipe socket. In the vicinity of the housing resonance, their acoustic impedance reaches a minimum, whereby the radiation from the back of the membrane is largely attenuated and not acoustic Can cause a short circuit.

This type of housing is particularly suitable for high-quality woofers proven because they have a better power balance compared to the closed housing. and lower distortions due to the elimination of the amplitude dependency of the pneumatisohen Bring restoring force.

Compared to an acoustic delay line, the missing one has an effect Elimination of discrete frequency ranges advantageous.

A major disadvantage so far has been that the housing resonates had to be carefully matched to the natural frequencies of the loudspeaker systems. Since the length of the pipe socket through the product V. # 2 is determined will be the vote increasingly critical with the reduction in housing volumes. You have to get the case resonances measured in a tried and tested manner around 1 octave below the loudspeaker resonances, to avoid disruptive pressure waves in the housings.

When making deeply tuned small speaker boxes, such as For example, in the case of so-called "ball speakers", the pipe sockets must be sufficient Have great lengths 1 and are matched accordingly, because their change in length goes quadratically into the resonance frequency.

The manufacturing spread of the natural frequencies is more common To catch loudspeaker systems, one was previously forced to move the housing so far inside to dampen that the bandwidth of their resonance frequency is greatly increased, or ... the acoustic quality to a large extent. has been reduced, taking the benefits of a pronounced at impedance minimums were lost. In addition, the damping material had to be have a higher density in the case of small housing volumes, which reduces the resonance frequencies increased as a result of volume reduction.

For these reasons, it was previously not possible to have high quality, deep Graduated loudspeaker enclosures with architecturally satisfactory volume in a more rational way To manufacture series production.

The new loudspeaker housing with adjustable resonance frequency according to the invention now enable and allow a rational quantity production also, individual cabinet speakers to the acoustic properties of a playback room and to the electrical properties of a transmission system individually acoustically to be adjusted by dimensioning the red trims with excess length and afterwards step by step until the desired housing resonance is achieved is and by the crossed Pipe socket at the bottom ¢ 3 towards the interior the housing can be inserted and mechanically fixed. The invention is now intended will be explained in more detail using examples.

1 shows a deeply tuned open loudspeaker housing 11 with the built-in cone loudspeaker 12, the permanently inserted pipe socket 13, whose opening cross-section measures P = a-b and whose length is 1. The loudspeaker enclosure 11 has the volume V.

The resonance frequency of such a housing is This determines the length of the pipe socket With the housing volume V = 0.2 m2 and the pipe socket volume VR = Fl = 0.05. 0.12. The resonance frequency is 0.2 m3 = 0.0012 m3, for example 21 Hz. This housing is designed for woofers with a natural frequency of around 42 Hz.

In Fig. 2 is a speaker housing 21 according to the invention with the smaller volume V = 0.1 m3 shown. The pipe socket out at the top 23, 25 is measured with its original length 1 = 5 cm for f = 19 Hz. By the adjustment method described later, according to the invention, it becomes 1 = 3.7 cm for f = 21 Hz shortened by the section 25, and, as shown in FIG. 3, as a pipe socket Ny inserted flush into the housing 31 and by means of the indicated screws 36 screwed to the rear wall.

As a further exemplary embodiment of the invention, a so-called one is shown in FIG Ball speaker shown schematically. The speaker case 41 consists of a hemisphere with the loudspeaker system 42 used. The perforated spherical shell 47 serves only as a cover.

The housing 41 has, for example, an inner diameter of 0.5 m and the volume V - 0.04 m3. According to the invention, the pipe socket 43 consists of a flexible one Plastic tube with a clear width of 2.5 cm.

With the cross-sectional area F = 0.0005; m2 and length 1 = 9.5 cm the resonance frequency of the housing is f = 19 Hz. To tune to f = 21Hz, the plastic tube must be shortened to 1 = 7.8 cm.

According to the invention, it is then pushed in and glued at 48.

In the schematic representations of FIGS. 1 to 4, for better Overview of the internal damping material. omitted.

According to the invention, the pipe sockets consist of an easily machinable, otherwise dimensionally stable material. Plywood, hardboard, Foam, tubes made of plastic or rubber, but also soft metals, for Example also copper pipe.

The pipe sockets that protrude at first and are shortened according to the invention are pushed into the housing and fastened according to the material. At Xolz, hardboard, hard foam and soft metals, it is advisable to use screws, which can be guided in pre-measured slots in the housing wall. With plastic material Adhesives have also proven themselves, for example two-component adhesives made from epoxy resin.

In the calibration method according to the invention, the built-in Loudspeaker systems in a circuit with an upstream real resistor, whose value is small compared to the loudspeaker impedance, more variable with alternating current Frequency and constant voltage excited, the acoustic natural frequencies of the stimulating and resonating systems as impedance maxima with corresponding Voltage minima are measured at the upstream resistor1 The The pipe socket is selected until the desired resonance frequency is reached.

The new comparison process is based on the relationship between the acoustic oscillation states and the electrical impedance values Electro-acoustic playback transducer at the input terminals. A tried and tested procedure according to the invention can be carried out with an arrangement according to FIG. The tunable one Audio frequency generator G with an internal resistance close to zero and an external resistance in the order of magnitude of the lower resistance of the test object Pr feeds the im to be adjusted Housing vibrating DUT via the real series resistor R, whose value, for example 0.5R. The acoustic natural frequencies of the resonating systems appear as impedance maxima at the terminals of the test object and cause corresponding voltage minima at the series resistor R, which can be registered with a voltmeter U.

In practice, it is useful to change the frequency from low Values, for example from lo Hz, to higher values and recognizes first by the deflection of the voltmeter U the cabinet resonance, then the higher-level loudspeaker resonance. By gradually shortening the pipe socket, you can create a frequency curve, for example set, which is similar to that of a supercritically coupled band filter.

In a further embodiment of the invention, it is proposed to use the alternating current variable frequency by a wobble generator with a wobble frequency of to generate a maximum of 1 Hz and thus also the horizontal adjustment in a known manner of a viewing device while the vertical deflection is controlled by the voltage drop at U is determined.

Literature considered: E. Roske: The construction of loudspeakers, Funk-Technik 1969 NrO 3.

No. 4, No. 5, No. 6, No. 7.

Claims (4)

Patent claims: 0 Matched loudspeaker enclosures with open pipe sockets, characterized in that the pipe sockets are dimensioned with excess length and subsequently be shortened step by step until the desired housing resonance is achieved eats that the kursten pipe socket finally pushed into the interior of the housing and be fixed mechanically. 2. Tailored loudspeaker housing according to claim 1, characterized in that that the pipe sockets are made of machinable material, such as wood, Foam, elastic plastic or soft light metal. 3. Procedure for aligning matched loudspeaker housings according to Claim 1. characterized in that the built-in speaker systems in one Circuit with upstream real resistance, its value against the loudspeaker impedance is small, excited with alternating current of variable frequency and constant voltage be, the acoustic natural frequencies of the exciting and resonant Systems as an impedance maximum with corresponding voltage minima at the upstream Resistance can be measured, and that the pipe sockets are shortened until the desired resonance frequency is reached. 4. The method according to claim 3, characterized in that the alternating current adjustable frequency by a wobble generator with a wobble frequency of a maximum of 1 Rz is generated and, in a known manner, the horizontal axis of a viewing device controls.