ITBO20120708A1 - HEARING ACOUSTIC CASE - Google Patents

Description

RESONANT ACOUSTIC BOX

DESCRIPTION OF THE INVENTION

The present invention is inserted in the acoustic field, in particular in the technical sector relating to resonant acoustic boxes, specifically to acoustic boxes for loudspeakers and / or acoustic instruments, preferably to resonant membrane percussion instruments such as drums, bass drum, bongos, etc. .

The internal working volume greatly influences the sound emitted by resonant membrane percussion instruments and resonant loudspeaker systems which, as known, include a loudspeaker and a resonant acoustic box on which the loudspeaker is mounted. Therefore an important phase of the design of these systems and tools consists in the theoretical calculation of the internal volume and is particularly complex. To simplify this calculation, in the field of loudspeaker systems, the electroacoustic parameters of Thiele & Small have been developed, which are specific for each individual loudspeaker, and which are considered to calculate the optimal theoretical internal volume of the resonant loudspeaker on which to mount the 'speaker. Given the complexity of the calculation, countless software programs have been developed capable of providing, once these parameters have been set, the theoretical internal volume and / or internal dimensions of the case. On the basis of the theoretical value thus obtained, the resonant acoustic box is designed and subsequently built. Only after mounting the loudspeaker on the speaker can it be verified whether the resulting loudspeaker system actually resonates satisfactorily or if it is necessary to design an additional loudspeaker after modifying the aforementioned parameters. Generally, in order to obtain a satisfactory result under standard acoustic test conditions of the resonant system, it is necessary to repeat several times the operating cycle which includes the phases of calculation of the theoretical volume of the enclosure, of the design of the enclosure, of assembly of the resonant loudspeaker system and of acoustic testing of the same. This involves a fair amount of labor time and obviously an increase in production costs. Furthermore, the performance of a resonant speaker system is strongly influenced by the environment in which it is placed. In fact, the same loudspeaker system, placed outdoors, will have a different performance than when it is located in a closed environment, and in any case it will be influenced by the conformation of the surrounding environment, by the dimensions present therein and by the relative positioning. Therefore, even a loudspeaker system, which has passed the aforementioned acoustic test under standard conditions, may not satisfactorily pass an acoustic test under the conditions of use. The same can also be said in relation to the aforementioned percussion instruments. In any case, regardless of the outcome of the test, the need is particularly felt by the end user to modify the sound generated by these loudspeaker systems and by these instruments at will. In addition to this, depending on the type of loudspeaker system to be built, in pneumatic suspension (also called "sealed box" or "infinite baffle") or in "bass reflex" enclosure, the internal volume of the relative loudspeaker is considerably different and therefore it is not possible to use the same loudspeaker system in pneumatic suspension and in “bass reflex”.

To overcome these problems, electronic equalization systems have been proposed in the past for the sound that can be generated by said resonant loudspeaker system and / or by said instruments but they do not allow a fine adjustment of the sound and in any case do not avoid the aforementioned design and production problems. .

The object of the present invention consists in solving the aforementioned drawbacks related to known types of resonant boxes. The aforesaid object is achieved by means of a resonating box in accordance with the independent claim.

With the present invention it is possible to modify the internal working volume of the loudspeaker system or of the membrane-sounding musical instrument, thus being able to vary at will and continuously the "merit factor in closed case" (also known as "QTC" or "performance factor in closed case ”) by influencing the sound emitted by the loudspeaker system and / or the membrane-phone instrument due to a variation in the acoustic load exerted by air.

This adjustment is also possible during playback or execution of a sound, or a piece of music, according to the preferences of the end user.

Specific embodiments of the invention will be described later in this discussion, in accordance with the claims and with the aid of the attached drawing tables, in which:

Figure 1 is a schematic front perspective view of a first embodiment of the sound box according to the invention;

Figure 2 is a sectional view from the top of the sound box of Fig. 1 according to axis III;

Figure 3 is a sectional view from above of a second embodiment of the acoustic box according to the invention;

Figure 4 is a schematic perspective view with omitted portions of a third embodiment of the acoustic box according to the invention 1;

Figure 5 is a sectional view from above of the embodiment of the acoustic box of Fig. 1; And

figure 6 is a perspective of a component of the acoustic box of Fig. 5.

With reference to the aforementioned figures, 1 indicates a resonant acoustic box comprising: an external structure 2 defining a first internal volume. The external structure 2 is affected, in a first side, by a first opening 3 for the coupling of the acoustic box 1 with a speaker 33 or an acoustic membrane for a resonant membranophone instrument. This acoustic box 1 is characterized in that it comprises: at least a first chamber 4 arranged inside the external structure 2, said first chamber 4 being closable by circumscribing a closed space; and actuation means 55 which can be operated to close said first chamber 4 for, when said loudspeaker 1 is coupled to said loudspeaker 33 or to said membrane and said first chamber 4 is closed, to obtain a second working volume, internal to the external structure and smaller than said first volume, in which said loudspeaker or said membrane will work. This allows you to vary the internal volume in which the speaker operates by varying its behavior and therefore the sound emitted by a speaker system according to the invention. The figures show only speakers 1 for loudspeaker systems 30 (in which the external structure has continuous walls on the remaining five relative sides) as they are particularly advantageous. By appropriately dimensioning the spaces that can be closed by a plurality of chambers 4, it is possible to fine-tune the second working volume and therefore the sound emitted. This is also possible with an alternative embodiment, in which a single first chamber 4 is sufficient that can be closed in a plurality of different relative arrangements between the parts 6,7,9 that compose it, with each arrangement defining a closed space occupying a its different third volume. Said first chamber 4 can advantageously comprise: a bottom wall 6, a lateral portion 7 with a fixed cross section, originating from said bottom wall 6 and ending with a relative edge 8, to laterally delimit said closed space (i.e. said third volume) ; a closing wall 9 movable and slidably insertable in the side portion 7 to adjust the dimensions of said closed space. The actuation means 55 can comprise means 5 for adjusting the distance between the closing wall 9 inserted in the lateral portion 7 and said edge 8. As shown in Figs. 1-2, this first chamber can occupy most of the first volume. The side portion 7 can be advantageously constituted by a cylindrical wall 7 and the closing wall 9 can be constituted by a circular diaphragm 9 which is moved inside the cylindrical wall 7 by a screw 5 that crosses it centrally. According to an alternative embodiment (not shown), the first chamber can be delimited from the 5 sides by the same external structure 2 not affected by the first opening 3, these sides are therefore identified with the relative bottom wall and the side portion. In this case, the closing wall is parallel to said first side of the external structure 2 and can be moved by a hydraulic piston along a direction perpendicular to said first side.

According to a relative and preferred embodiment, the casing 1 comprises at least two closable chambers 4, 10, with the second chamber 10 being closable to circumscribe a closed space having a predetermined second fixed volume. In Figs. 4-5, this case provides, in addition to the first, five further lockable chambers, each of which having as a closing wall 9 a door 9 rotatably linked to a further wall 19 forming part of the lateral portion of the chamber 4 and guided by a ring 18. The bottom wall 6 can be constituted by a portion of the external structure 2 of the box. This simplifies the manufacture of the case 1. In the embodiment of Fig. 3, the further three lockable chambers 10, in addition to said first chamber 4, are arranged in sequence from the first side of the external structure towards a further side opposite to said first side and are defined by a series of fixed perforated panels 20 and by a series of closing walls 9 sliding on said panels to close the holes 21 of the perforated panels. By suitably sliding the closing walls 9 on the relative panels, the second working volume is roughly adjusted, which can be finely adjusted by means of the first closable chamber 4 similarly to what occurs in the boxes of Figs. 1, 2 and 4-5. 1 In the same loudspeaker 1, the chambers 10 in addition to said first chamber 4 can be of different types, shapes and sizes, for example both of the type indicated in Fig. 3 and in Fig. 4 and 5.

Preferably the case 1 according to the invention is designed for the manufacture of resonant speaker systems 30 (Figs. 2, 5). For this purpose, said first opening 3 is shaped to engage with a basket 34 of a loudspeaker 33. Advantageously, to make a bass reflex loudspeaker system 30, the first side of said external structure 2 affected by said first opening 3 is further affected by a further second opening 11 to engage with an acoustic duct, also called "reflex connection" to convey the sound frequencies emitted at the rear by said loudspeaker 33 and reflectable inside the acoustic box. Preferably, the acoustic box 1 further comprises: a first internal tube 12 originating from said second opening 11 and ending with an open end and a second tube 13 which can be telescopically coupled to said first tube 12 to form together with the latter an acoustic duct for conveying the sound frequencies emitted by said loudspeaker 33 and reflectable inside the acoustic box 1 (in the aforementioned working volume); and further adjustment means 14 which can be operated to move the second tube 13 with respect to the first tube 12 to adjust the length of said conduit (Figs. 6).

In this case it is preferable for the speaker 1 to include a door 15 to close said second opening 11. This, together with the adjustment of the second working volume, allows the end user to use the same speaker 1 for both resonant and suspension speaker systems 30 pneumatic both in the “bass reflex” case. Advantageously, this box 1 also comprises means 16 for moving said door 15 which can be operated to at least partially close the second opening 11 (Fig. 6). Such movement means 16 can be operable to adjust the positioning of the door 15 with respect to the second opening 11 from a first position in which the second opening is completely open to a second position in which the second opening is completely closed.

The case 1 can be comprised in a membranophone instrument when the first opening 3 is shaped to couple with an acoustic membrane for percussion membraneophone instruments.

In each embodiment of the casing 1 according to the invention, at least one pneumatic valve 17 (Figs. 1 and 2) can be provided that is electrically controlled or mechanically pneumatically operated to allow the passage of air from the closed space to the working volume and vice versa and / or gaskets to ensure the pneumatic seal between the latter.

Moreover, control means, not shown, are advantageously provided for the aforementioned actuation means 55, for the further adjustment means 14 and for the movement means 16. These control means can also be of the remote control type. A resonant speaker system 30 comprising a speaker 1 in accordance with the invention and a system for reproducing sounds comprising the aforementioned system 30 is advantageous.

Preferred examples of said system for reproducing sounds include acoustic speakers or P.A. (public address) and professional, loudspeaker systems for domestic use, loudspeaker systems for vehicles, televisions, personal computers, desktop personal computers, notebook personal computers, tablet personal computers, digital music players (IPOD) , stereo headphones, earphones, cell phones, and musical instruments.

Also advantageous are the membranous musical instruments comprising a resonant acoustic box 1 in accordance with the invention.

It is understood that the above has been described by way of non-limiting example, so any construction variants are understood to fall within the protective scope of this technical solution, as claimed below.

Claims (11)

CLAIMS 1 Resonant acoustic box comprising: an external structure 2 defining a first internal volume, said external structure 2 being affected by a first opening 3 for the coupling of the acoustic box 1 with a loudspeaker 33 or an acoustic membrane for a membrane-sounding instrument, said box acoustic 1 being characterized in that it comprises: at least a first chamber 4 arranged inside the external structure 2, said first chamber 4 being closable by circumscribing a closed space; and actuation means 55 operable to close said first chamber 4 to obtain a second working volume, and therefore a different internal acoustic load, when said loudspeaker 1 is coupled to said loudspeaker 33 or to said membrane and said first chamber 4 is closed to the external and minor structure of said first volume, in which said loudspeaker or said membrane will operate. 2. Acoustic enclosure according to the preceding claim, wherein said first chamber 4 comprises: a bottom wall 6, a lateral portion 7 with a fixed cross section, originating from said bottom wall 6 and ending with a relative edge 8, to laterally delimit said closed space; a movable closing wall 9 slidably insertable in the side portion 7 to adjust the dimensions of said closed space, and in which said actuation means 55 comprise means 5 for adjusting the distance between the closing wall 9 inserted in the side portion 7 and said edge 8. Acoustic box according to the preceding claim, comprising at least two closable chambers (4, 10), in which a second chamber 10 can be closed to circumscribe a closed space having a predetermined second fixed volume. Sound box according to any one of the preceding claims, said sound box 1 being a sound box 1 for loudspeaker resonant systems 30 in which the first opening 3 is shaped to engage with a basket 34 of a loudspeaker 33, in said first side of said external structure 2 is further affected by a further second opening 11, and in which the acoustic box 1 further comprises: a first internal tube 12 originating from said second opening 11 and terminating at an open end and a second tube 13 telescopically coupled to said first tube 12 to form together with the latter an acoustic conduit for conveying the sound frequencies emitted by said loudspeaker 33 and reflectable inside the acoustic box 1; and further adjustment means 14 which can be operated to move the second tube 13 with respect to the first tube 12 to adjust the length of said conduit. 5. Acoustic enclosure according to the preceding claim, further comprising a door 15 for closing said second opening 11. 6. Acoustic enclosure according to the preceding claim, further comprising means 16 for moving said door 15 which can be operated to at least partially close the second opening 11. 7. Acoustic enclosure according to the preceding claim, in which movement means 16 are operable to adjust the positioning of the door 15 with respect to the second opening 11 from a first position in which the second opening is open to a second position in which the second opening is completely closed. Acoustic enclosure according to any one of the preceding claims, said enclosure being an acoustic enclosure 1 for a membranophone instrument in which the first opening 3 is shaped to couple with an acoustic membrane for a percussion membranous instrument. Loudspeaker resonant system comprising a resonant sound box 1 according to any one of claims 1-7. 10. A system for reproducing sounds comprising a resonant loudspeaker system 30 according to claim 9, said system for reproducing sounds being selected from the group consisting of professional and public address loudspeaker systems, in acoustic diffuser systems for domestic use, loudspeakers for motor vehicles, televisions, personal computers, desktop type personal computers, notebook type personal computers, tablet type personal computers, digital music player (IPOD) stereo headphones, earphones, mobile phones, and musical instruments. 11. Percussion membranophone instrument comprising an acoustic box according to claim 8.