FR2815511A1 - Device to support column speaker - Google Patents

Abstract

Device to support column speaker. The column comprises a box on which a high speaker (19) is mounted. There is a base (2) on the ground. The upper part of the base (200) comprises magnetic field generators (21). There is also a solid support (1) for the lower part of the speaker, also with magnetic field generators (11). These, along with the supports create a magnetic suspension so that there is space between the speaker and the base. There are also docking systems (24.1,24.2) on the base. These have a several cables (23.1,23.2). One end of each cable (24.1, 24.2) is fixed to the base and the other end is fixed to the supporting element (10). The magnetic field generators have at least one electromagnet containing a rechargeable battery (4). The supporting elements have a battery re-charging device (41) as well as power supply systems (410) in case the generating systems stop working.

Description

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Speaker support device
The present invention relates to a device for supporting loudspeakers, for example, high-fidelity stereophonic systems.

avec le sol, les vibrations de l'enceinte se propagent également sur le sol, éventuellement au travers du support, ce qui provoque des phénomènes vibratoires parasites d'une part désagréables mais également nuisibles à la qualité acoustique des enceintes. It is known that during sound reproduction, the loudspeakers of an acoustic enclosure generate vibrations which are propagated in the frame of the enclosure. When the speaker is placed on the ground or on a support in contact

with the ground, the vibrations of the enclosure also propagate on the ground, possibly through the support, which causes parasitic vibration phenomena on the one hand unpleasant but also harmful to the acoustic quality of the speakers.

toujours un lien physique entre le bâti de l'enceinte et le sol. Ce lien est par conséquent susceptible de transmettre des vibrations parasites vers le sol. Acoustic speaker stands are known, the shape and materials of which are chosen to absorb vibrations. However, the effectiveness of these supports is not completely satisfactory insofar as there are

always a physical link between the enclosure structure and the ground. This link is therefore likely to transmit parasitic vibrations to the ground.

The present invention therefore aims to overcome the drawbacks of the prior art by proposing a device for supporting acoustic speakers avoiding any transmission of vibrations between the frame of the enclosure and the ground.

 This object is achieved by a device for supporting an acoustic enclosure comprising a frame in which at least one loudspeaker is mounted, the device being characterized in that it comprises a base placed on the ground, the upper part of the base. comprising means for generating a magnetic field, the device also comprising, opposite the means for generating a magnetic field of the base, a support element secured to the lower part of the enclosure and comprising means for generation of a magnetic field, the magnetic fields of the means for generating a magnetic field of the base and of the support element being in opposite directions to create a phenomenon of magnetic suspension of the support element on the base so that a space exists between the support element and the base (2).

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 According to another particular feature, the acoustic enclosure support device comprises means for securing the support element to the base.

 According to another particular feature, the mooring means comprise a plurality of cables, a first end of each cable being fixed on the base, the second end of each cable being fixed on the support element.

 According to another particular feature, the mooring means comprise guide means limiting the movement of the support element to a translation movement of vertical axis.

 According to another particularity, the mooring means comprise means for tensioning the cables to adjust the position of the support element vertically to the means for generating a magnetic field of the base.

fixée sur la face latérale du socle comprenant la paire de câbles, la deuxième extrémité du bras de guidage comprenant un oeillet dans lequel passent les deux câbles, le bras de guidage faisant un angle déterminé avec la face latérale du socle. According to another particularity, the mooring means comprise for each vertical face of the base, a pair of cables, and the guide means comprise a guide arm of which a first end is

fixed to the side face of the base comprising the pair of cables, the second end of the guide arm comprising an eyelet through which the two cables pass, the guide arm making a determined angle with the side face of the base.

 According to another particular feature, the means for generating the magnetic field of the base comprise at least one electromagnet supplied by means of power supply control means.

 According to another particular feature, the means for generating the magnetic field of the support element comprise at least one electromagnet supplied by a rechargeable battery, the support element comprising means for recharging the battery supplying the means of connection with the base when the means for generating the magnetic field of the base are interrupted.

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 According to another particularity, the support element forms an integral part of the lower part of the enclosure, so that the constituent elements of the support element are mounted on or in the frame of the enclosure.

 The invention, with its characteristics and advantages, will emerge more clearly on reading the description made with reference to the appended drawings in which: - Figure 1 represents a front view of an acoustic enclosure equipped with the support device according to invention.

 - Figure 2 shows a top view of the base of the support device according to the invention.

 As explained above, during a sound reproduction, the loudspeakers of an acoustic enclosure generate vibrations which propagate to the ground through the frame and the support of the enclosure if the latter is placed on the ground. The principle of the invention is in fact to stop the propagation of vibrations by eliminating any physical connection between the enclosure and the ground.

 To do this, the speaker support device uses the well-known phenomenon of magnetic suspension. This phenomenon is obtained by placing opposite the faces of the same magnetic pole of two magnetized elements. There is then created between the two elements a repulsive force which is used for lift in the invention.

 The enclosure support device according to the invention will now be described with reference to FIGS. 1 and 2. The support device comprises a base (2) placed, or possibly fixed, on the ground. The base (2) comprises, in the vicinity of its upper face (200) opposite the face placed on the ground, means (21) for generating a magnetic field. To ensure the stability of the base (2) on the ground, the base (2) can, for example, be ballasted. Similarly, for the same concern for stability, the shape chosen for the base (2) comprises at least a first planar surface constituting the contact surface between the base (2) and the ground and a second planar surface substantially parallel to the ground and , for example, of the same shape as the first surface, the means (21) of

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 generation of a magnetic field are mounted near this second surface.

 The support device according to the invention also comprises a support element (10), secured to the lower part of the acoustic enclosure (1) comprising the speaker (s) (19). In the alternative embodiment shown in Figures 1 and 2, the support element (10) is integrated into the enclosure (1) and is part of the frame of the enclosure (1). However, this variant is only given for illustrative purposes and should not limit the invention to this single variant embodiment. Thus, in another alternative embodiment, not shown, the support element is a separate assembly from the enclosure and includes means for solarizing the enclosure, so that the enclosure is made perfectly integral with the support element, this variant making it possible to equip existing enclosures with the magnetic suspension device.

 The lower face (100) of the support element (10) is placed above the upper face (200) of the base (2). This lower face (100) of the support element also comprises means (11) for generating a magnetic field. According to an alternative embodiment, the means (11) for generating a magnetic field of the support element (10) are placed vertically means (21) for generating a magnetic field of the base (10), so that the respective magnetic fields are on the same vertical axis.

 The means (11,21) for generating a magnetic field arranged in the base (2) and in the support element (10) each comprise either at least one magnet, for example in the form of a bar, or at least one electromagnet .

 The shape and position of the magnets (11,21) or electromagnets of the base and the support element (10) are chosen so that the magnetic field created is in the vertical direction. As described above, the position of the magnets (11,21) is preferably chosen so that the magnets or electromagnets (11) of the support element (10) are vertical to the magnets or electromagnets (21) of the base (2 ) with the same opposite polarities. So,

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 the repulsive force created by the facing magnets of the same sign of the different magnets (11, 21) is substantially vertical. Similarly, to prevent the repulsion forces created between the different magnets (11,21) of the base (10) and of the support element (10) from inducing a moment of rotation on the support element (10), the magnetic fields created by the magnets (11, respectively 21) of the element (10) supporting respectively the base (20) have, for example, the same value. Indeed, according to the invention it is preferable that the repulsion force due to the magnetic fields is substantially homogeneous over the entire surface (100) of the lower support element (10).

 In the embodiment shown in Figures 1 and 2, the base (2) has the general shape of a rectangular parallelepiped and the means (21) for generating a magnetic field of base (2) comprise four magnets placed so centered on each edge of the upper face (200) of the base (2). In this alternative embodiment, the support element (10) also comprises four magnets placed centrally on each edge of the lower face (100) of the support element (10). In this variant, all the magnets generate a magnetic field of substantially the same intensity. Thus, the repulsion forces exerted between each magnet (11 respectively 21) of the support (10), respectively of the base (2), are substantially identical. Consequently, taking into account the vertical direction of these repulsion forces, the expected movement of the support element (10) relative to the base is a translation along the vertical axis. The phenomenon of magnetic suspension takes place only if the repulsive forces are greater than the gravitational force acting on the enclosure (1) as a function of its mass. Consequently, the magnets (11, 21) of the base (2) and of the support element (10) are chosen to create a magnetic field generating repulsion forces sufficient to overcome the weight of the enclosure (1) and of the support element (10) so that a space (E) of a determined height separates the lower face (100) from

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the element (10) supporting the upper face (200) of the base (2). This therefore eliminates any mechanical coupling
The means (11, 21) for generating a magnetic field can consist of electromagnets. In this variant, the positions of the electromagnets (11,21) on the lower face (100) of the support element (10) and on the upper face (200) of the base (2) are substantially the same as when the means ( 11,21) of generation of a magnetic field consist of magnets.

 The electromagnets (21) of the base (2) are supplied with electricity, for example by means of a current variator (3) connected to a power supply device connected to the mains. This variator (3) makes it possible to supply the coils of the electromagnets (21) with a current suitable for generating, at the level of the electromagnets (21) of the base (2), the desired magnetic field. Thus, by varying the value of the current by an action on the variator (3), the user modifies the value of the magnetic field and therefore the value of the repulsion force between the electromagnets (21) of the base and the means (11 ) generating a magnetic field of the support element (10).

Consequently, the user can, for example by acting on the variator (3) modify the height of the space (E) separating the lower face (100) of the support element (10) from the upper face (200). of the base (2) or keep the same space (E), even when the weight of the enclosure (1) changes.

 Similarly, the magnets (11) of the support element (10) can also be replaced by electromagnets powered by one or more batteries (4), for example, rechargeable. According to the variant embodiment shown in Figures 1 and 2, the battery or batteries (4) are recharged, by means of a battery charger (41) comprising connection means (410) located on the face (100) bottom of the support element (10). The base (2) comprises on its upper face (200) complementary connection means (31) situated substantially opposite the means (410) for connection of the support element (10) and connected to the supply device (32)

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 electrical base (2). Thus, the batteries (4) of the support element (10) are recharged as soon as the charger connection means (410) (41) are inserted in the complementary connection means (31) of the base (2), after interruption of the electromagnets supply circuit (21) of the base (2). Indeed, when the electromagnets (21) of the base are no longer supplied, they no longer generate a magnetic field. Consequently, the repulsive force becomes zero. The weight of the enclosure (1) causes the support element (10) to fall back into contact with the base (2), which allows the connection of the means (31, 410) of connection respectively of the base (2) and of the element (10) support. It can also be provided that when the batteries (4) are being recharged the supply of the electromagnets (11) of the support element (10) can be interrupted by an actuator, for example a switch.

les électroaimants du socle (2) ne sont plus alimentés, la coupure d'alimentation de ces électroaimants (21) peut être progressivement réduite par l'intermédiaire du variateur (3). Similarly, according to another alternative embodiment, the triggering of the power supply of the electromagnets (21) of the base (2) is coupled with the switching on of the high fidelity system to which the enclosure (1) is connected. To avoid too sudden a fall of the support element (10) on the base (2) when

the electromagnets of the base (2) are no longer supplied with power, the power cut of these electromagnets (21) can be gradually reduced by means of the variator (3).

 According to the alternative embodiment shown in Figures 1 and 2. The support device according to the invention comprises means (23.1, 23.2) for securing the element (10) support on the base (2). These securing means (23.1, 23.2) are intended to ensure the positioning of the support element (10) above the base (2). The mooring means comprise, for example, a plurality of cables (23.1, 23.2), for example, metallic. A first end (24.1, 24.2) is fixed on the base (2) and the second end (14.1, 14.2) is fixed on the support element (10). All the mooring cables (23.1, 23.2) are substantially the same length. This length is determined so that the space (E) between the support element (10) and the base (2) is sufficient to prevent the propagation of vibrations of the enclosure frame

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(1) vers le socle (2). Selon la variante de réalisation représentée aux figures 1 et 2, les faces latérales du socle (2) et de l'élément (10) support sont amarrées entre elles par l'intermédiaire d'une paire de câbles (23. 1, 23. 2). Pour chaque face latérale du socle (2), les premières extrémités (24.1, 24.2) des câbles (23.1, 23.2) sont fixées au voisinage de la face inférieure en contact avec le sol et à proximité de chaque bord vertical de la face latérale du socle (2). Pour chaque face latérale de l'élément (10) support, les deuxièmes extrémités (14.1, 14.2) des câbles (23.1, 23.2) sont fixées au voisinage de la face (200) inférieure et à proximité de chaque bord vertical de la face latérale de l'élément (10) support.

(1) towards the base (2). According to the variant embodiment shown in FIGS. 1 and 2, the lateral faces of the base (2) and of the support element (10) are moored together by means of a pair of cables (23. 1, 23. 2). For each lateral face of the base (2), the first ends (24.1, 24.2) of the cables (23.1, 23.2) are fixed in the vicinity of the lower face in contact with the ground and near each vertical edge of the lateral face of the base (2). For each lateral face of the support element (10), the second ends (14.1, 14.2) of the cables (23.1, 23.2) are fixed in the vicinity of the lower face (200) and near each vertical edge of the lateral face of the support element (10).

 The securing means (23.1, 23.1) may be supplemented by guiding means (22.1, 22.2). These guide means (22.1, 22.2) prevent the support element (10) from moving outside a translation of a vertical axis. Thus, in this case, even if the repulsion forces do not induce, as described above, only a translation of the vertical axis of the support element (10), but also induce, for example, a moment of rotation d 'horizontal or vertical axis, the guide means (22.1, 22.2) prevent rotation of the support element (10). When the securing means (23.1, 23.2) are cables, the guide means comprise, for each lateral face, a guide arm (22.1, 22.2) making, in a horizontal plane, a determined angle with the lateral face. A first end of the guide arm (22.1, 22.) is fixed, for example, on the lateral face of the base (2) near an upper corner of the lateral face. The second end of the guide arm (22.1, 22) comprises an eyelet (220.1, 220.2) through which pass the cables (23.1, 23.2) fixed on the lateral face. The length of the guide arm (22.1, 22.2) is determined so that the eyelet (220.1, 220.2) is substantially in the vertical median plane of the lateral face of the base (2).

 In order to adjust the height of the space (E) between the support element (10) and the base (2), tensioners (not shown) can be placed on the cables (23.1, 23.2) on each side face of the device according to the invention. Acting

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 on the cable tensioners (23. 1, 23. 2), the user modifies the tension of the cables, which on the one hand increases the stability of the support element (10) on the base (2) and of on the other hand can vary the length of the cables and therefore modify the height of the space (E) between the support element (10) and the base (2).

 It should be obvious to those skilled in the art that the present invention allows embodiments in many other specific forms without departing from the scope of the invention as claimed. Therefore, the present embodiments should be considered by way of illustration, but may be modified in the field defined by the scope of the appended claims, and the invention should not be limited to the details given above.

Claims (9)

1. Support device for an acoustic enclosure (1), the enclosure comprising a frame in which is mounted at least one speaker (19), the

 device being characterized in that it comprises a base (2) placed on the ground, the upper part (200) of the base comprising means (21) for generating a magnetic field, the device also comprising facing screw means (21) for generating a magnetic field of the base (2), a support element (10) integral with the lower part of the enclosure (1) and comprising means (11) for generating a field magnetic, the magnetic fields of the means (11,21) for generating a magnetic field of the base (2) and of the support element (10) being in opposite directions to create a phenomenon of magnetic suspension of the element (10 ) support on the base (2) so that a space (E) exists between the support element (10) and the base (2).  2. A speaker enclosure support device according to claim 1, characterized in that it comprises means (23.1, 23.2) for securing the element (10) support on the base (2).  3. acoustic speaker support device according to claim 2, characterized in that the mooring means comprise a plurality of cables (23.1, 23.2), a first end (24.1, 24.2) of each cable (23.1, 23.2) being fixed on the base (2), the second end (14.1, 14.2) of each cable (23.1, 23.2) being fixed on the support element (10).  4. Acoustic enclosure support device according to claim 2 or 3, characterized in that the means (23.1, 23.2) for mooring comprise means (22.1, 22.2) for guiding limiting the movement of the element (10) support for a vertical axis translational movement.  5. acoustic speaker support device according to claim 3, characterized in that the securing means (23.1; 23.2) comprise cable tensioning means (23.1; 23.2) for adjusting the position of the element <Desc / Clms Page number 11>  vertical support of the means (21) for generating a magnetic field of the base (2).  6. acoustic speaker support device according to claim 2 and 4, characterized in that the mooring means comprise for each vertical face of the base (2), a pair of cables (23.1, 23.2), and the means of guide include a guide arm (22.1, 22.2) of which a first

 end is fixed to the lateral face of the base (2) comprising the pair of cables (23.1, 23.2), the second end of the guide arm (22.1, 22.2) comprising an eyelet (220.1, 220.2) through which the two cables ( 23.1, 23.2), the guide arm (22.1, 22.2) making a determined angle with the lateral face of the base (2).  7. acoustic speaker support device according to one of claims 1 to 6, characterized in that the means for generating the magnetic field of the base (2) comprise at least one electromagnet (21) supplied through means (3 ) power supply control.  8. acoustic speaker support device according to one of claims 1 to 7, characterized in that the means for generating the magnetic field of the support element (10) comprise at least one electromagnet (11) powered by a battery (4) rechargeable, the support element (10) comprising means (41) for recharging the battery (4) supplying the means (410) for connection with the base (2) when the means (21) for generating of the magnetic field of the base (2) are interrupted.  9. acoustic speaker support device according to one of claims 1 to 8, characterized in that the support element (10) is an integral part of the lower part of the enclosure (1), so that the elements constitutive of the support element (10) are mounted on or in the frame of the enclosure (1).