BG103576A - Electrodynamic exciter - Google Patents

Abstract

The electrodynamic exciter can be used for the activation of a resonator-type emitter-loudspeaker in the form of a panel. It serves for the excitation of component (2) having the ability to maintain or distribute energy. The exciter contains a driving coil unit (3, 4), with a coil (3) fixed to a tubular coil skeleton (4), magnetic unit (5, 6, 7) fitted concentrically to the driving coil unit and a device (11) suspending the magnetic unit for axial shifting towards the coil unit (3, 4). The exciter also includes a carrier (9) which supports the driving coil unit (3, 4) and is adapted for a connection to component (2) which has to be excited. 21 claims, 11 figures

Description

ELECTRODYNAMIC EXTRACTOR

QbNXX OF TECHNIQUE

The invention relates to an electrodynamic exciter, for example for use in activating a resonator-shaped, panel-emitter speaker of the type described in the international application in a procedure published under number WO97 / 09842 on September 2, 1996.

BACKGROUND OF THE INVENTION

In particular, the present invention is an electrodynamic inertial vibration exciter, for example of the general type described in International Patent Application No. WO97 / 09859, published September 2, 1996, which describes an inertial vibration exciter containing a drive coil assembly including a coil for a coil a tubular coil skeleton, a magnetic assembly arranged concentrically with respect to the drive coil assembly and forming an inertial mass and a flexible means supporting the magnetic assembly for axial motion relative to the assembly of the coil. advizhvashtata coil, and in which the tubular element is adapted to be rigidly mounted directly to the member, which vibrates, for example, resonator panel loudspeaker, by adhesive means

The present invention relates to an effective pathogen design and manufacturing technology for the production of such pathogens.

SUMMARY OF THE INVENTION

According to the invention, an electrodynamic inertial vibration exciter for excitation of a 5 element having the capability to maintain and propagate the input vibration energy and comprising a drive coil assembly including a coil fixed to the coil skeleton, a magnetic assembly,

arranged concentrically with respect to the drive coil assembly 10 and the axial motion means relative to the drive coil assembly, is characterized by a carrier supporting the drive coil assembly and adapted to be coupled to the element to be excited. The carrier may be directly connected to the bobbin skeleton. A suspension means may be attached to the 15 supports. A coupling element can be connected to the carrier through the suspension means, which coupling element is adapted to carry the magnetic assembly.

The coupling element and the magnetic assembly may be adapted to fit one another, and means may be provided on the coupling element and on the magnetic assembly for securing the coupling element and the magnetic assembly to one another.

The fastening means comprises a locking element. The carrier and the suspension element may be one. The coupling element and the suspension member may be one. Suspension can be flexible. The suspension can be made as a diaphragm. Alternatively, the suspension may comprise a holder of elastic arms. The coupling element 30 and the carrier may be annular and the arms may be connected between the coupling element and the carrier for peripheral placement.

The carrier may have a surface adapted to contact the resonator element and made to be fixed thereon, for example by means of an adhesive means or by means of fixing devices. The carrier may be integral with the flange designed to be fixed to the resonator element, the flange may be disk-like and designed to maintain the exciter in the cavity in the resonator element by means of the end portion of the flange. The disc may be shaped to close the cavity.

The end of the skeleton of the coil can be located and mounted in a groove in the carrier. The coil can be mounted on the outer surface of the coil skeleton.

The magnetic assembly may comprise opposing, generally disk-like, magnet-clamping parts, the periphery of one of which pole parts is located within and adjacent to the drive coil, and the periphery of the other of which the pole pieces are provided with a straight flange arranged to be positioned in proximity to and around the drive coil assembly. The flange may be shaped to be secured to the coupling element. A protrusion may be provided, which protrusion is formed to attach to the coupling element, and a retaining means on the coupling member may be provided to engage the protrusion. A dust seal may be formed to seal the annular coil carrier.

The means suspending the magnetic axial motion assembly relative to the drive coil assembly may

1229/99-φν contains pairs of axially disposed parts or components to facilitate axial guidance of the sound coil with respect to the drive coil assembly. The suspension parts can be in any desired shape, for example they may contain 5 holders of elastic arms respectively.

The corresponding outer edges of the elastic arms in each suspension member may be joined together by means of nozzles, the lower edges of which form a step adapted to contact the resonant member. The inner 10 edges of the arms may carry corresponding annular couplings adapted to support the magnetic assembly.

In another aspect, the invention is a loudspeaker comprising an inertial vibration exciter 15 as described above.

BRIEF DESCRIPTION OF THE DRAWINGS The invention is schematically illustrated by way of example of the accompanying drawings, in which:

Figure 1 is a cross-sectional side view of a first embodiment of an inertial electrodynamic vibration exciter according to the present invention;

Figure 2 is a sectional side elevation view of the embodiment of Figure 1;

Figure 3 is an enlarged side elevation of a detail of the embodiment of Figure 1;

Figure 4 is a top view of the suspension element of the embodiment of Figure 1;

1229/99-fC / Figure 5 is a top view similar to that of figure

4, a modified form of a suspension element for use in the embodiment of Figure 1;

Figure 6 is a top view similar to that of Figure 6

4, another modification of the suspension element used in the pathogen of the type shown in Figure 1;

Figure 7 is an embodiment of an inertial electrodynamic vibration exciter adapted to be incorporated into the resonant element to be excited;

u 10 the figure 8 is a top plan view of a suspension element, substantially similar to that of figure 4, this element being a pathogen of the type shown in figure 7;

Figure 9 is a perspective view of a modification of a suspension element for a pathogen of the type 15 shown in principle in Figure 7;

Figure 10 is a side sectional view of the suspension element of Figure 9 made along the line Y-Y of Figure 11, and Figure 11 is a horizontal section along the line X-X of Figure 10.

• 20

FIGS. 1 to 4 show a first embodiment of an electrodynamic inertial vibration exciter 1 of the type generally described in International Patent Application 25 WO97 / 09859 for the excitation of, for example, directed wave vibrations in the resonator element described in International Patent Application WO97 / 09842 for Speaker Performance.

In this sense, the pathogen 1 includes a drive coil assembly 3.4 and a magnetic assembly 5.6.7 forming β

1229/99-FS

an inertial mass adapted to move with respect to the drive coil assembly 3.4, the exciter being adapted to be appropriately fixed to the resonator element 2 in order to excite and transmit directed wave 5 energy to the resonator element 2 when an electrical signal was sent to him.

The actuating coil assembly 3.4 includes a sonic coil 3, for example, from a conductor wound on a tubular skeleton 4, which is secured to its lower end 17, as seen in figure u 10 1, in a annular groove 18 in a annular coil carrier

9, which forms a step by which the drive coil assembly is secured to the front surface of the resonator panel 2, for example by gluing or something similar. It is possible for the coil carrier to be secured to the resonator element 2 15 by means of fastening means, for example, retainers. These locks can be released. Thus, a bayonet connection can be provided, one part of which is connected to the resonator element and the other part is integrated integrally with the exciter. The skeleton of the coil 4 may be If 20 trapped in the groove 18 by means of an adhesive.

The drive coil assembly 3-4 is enclosed by an annular coupling element 12 which is connected to the carrier of the drive coil assembly 9 by means of an elastic annular suspension diaphragm 11, for example from 25 rubber-like material which is formed by concentric ring-shaped annular (ring-shaped) rings to facilitate the axial movement of the attachment member to the carrier. The carrier 9 and the attachment 12 may be of solid plastic and may be cast together with the flexible diaphragm 30 to form an integral suspension component or assembly. The inside of the annular support 9 is closed by a disk 10, for example foamed plastics, to form a dust seal closing the interior of the exciter.

Magnetic assembly 5,6,7 includes a disk magnet

5 inserted between opposite pole portions 6,7, one of which 7 is disk-like and is as large as a magnet 5, and the other 6 is cup-shaped and is formed by a downward facing flange 8 surrounding the magnet 5 and a pole portion 7 to form an annular cavity 20 to receive the sonic ^ 10 coil. The free end of the flange 8 is shaped like a projection extending outwardly 22, which is formed by annular grooves 21 at its outer end to form a receiving cavity in which the coupling element 12 can easily fit as a sleeve into a socket fastened together to secure the magnetic assembly and the drive coil assembly to each other, the retainers 13, which are on the coupling element 12, engage in the projection 22 to prevent release.

The coupling element 12 is formed by a pair of end flanges 14 carrying electrical terminals 15 (see Figure 3), which are electrically connected to the sound coil 3 by means of wires or terminals of the coil 16, whereby the coil can be connected to a signal source and thus to be fed.

Figure 5 shows a modification of a suspension element or exciter assembly, as given in Figures 1 to 4, in which the elastic diaphragm 11 of Figure 4 is replaced by a relatively rigid diaphragm 23 of textile fabric impregnated with a plastic material, for example epoxy. The diaphragm 23 is integral with

1229/99-FS

Jf the coupling element 12 and the coil support 9, for example f, by injection molding of the elements 9 and 12 in the diaphragm.

Figure 6 shows an alternative form of suspension component or exciter assembly as given in FIG.

Figures 1 to 4, wherein the coil carrier 9, the coupling element 12 and the elastic suspension 28 between them, are formed integrally by the annular element 24 of elastic plastic material by casting φ 10 the annular element with circular grooves 25 extending partly around the annular an element to separate the element from the outer portion 26 which forms the coupling element 12 and the inner portion 27 which forms the coil carrier 9, the inner and outer parts being separated and connected by an elastic suspension formed by odrezhdaneto three arms 28, defined by grooves 25, the arms extend circumferentially in the element 24 and their outer ends 29 are connected with the outer part 26 and the inner ends 30 are connected with the inner part

I 20 27.Thus, the suspension works by contracting the elastic arms.

Figures 7 and 8 disclose a device in which the exciter 1, as previously described, is fixed in the cavity 31 in the panel-shaped resonator element 2. In this case, the carrier 9 is formed integrally with the expanding disk-like flange 32 through which the exciter is mounted in the grooves 33 in the front of the element 2, which encloses the cavity and thereby closes the cavity.

1229/99-fC / Figures 9 to 11 show an activator of the type described in general in Figures 1 to 3, whereas this activator uses a modification of a suspension component or assembly of Figure b. In this case, however, the suspension component consists of two 5 sets of axially spaced elastic arms 28 to further improve the guidance of the magnetic assembly 5,6,7 relative to the drive coil assembly 34. It should be noted that figure 9 shows the magnetic assembly as separate from the suspension component, although only the pole u 10 part 6 is visible. Also approx chvashtiyat component is shown partially cut his right hand, as it was done for clarity.

The suspension component or assembly includes a separate plastic mold forming the carrier 9, the connecting element 15 and the corresponding holders of elastic arms 28. The connecting element 12 consists of an upper and lower part, as further described in the following text.

Basically, the suspension component includes an annular support 9, which in turn has a 20 annular groove 18 for receiving and positioning the end portion 17 of the bobbin skeleton 4. A series of connecting projections 35 extends outward from the carrier and their outer ends. bind to the feet 36, which are made so that they remain against the elastic member 2 (not shown). The legs 36 25 support the outer edges 29 of the lower set of elastic arms 28.

The inner edges 30 of the lower set of elastic arms bear the annular coupling element 12 which has a protruding flange 37 adapted to receive tightly and 30 to support the lower end of the flange 8 of the pole portion 6 of

1229/99-FS magnetic assembly of the kind shown in principle in Figures 1 and

2. The legs 36 support the uprights 38, which bear the upper suspension element, consisting of upper complementary arms 28, bearing an upper annular coupling element 12, which is designed to accommodate the flange 8 of the pole b. the suspension element is arranged such that the upper edges of the supporting supports bear the outer edges of the set of arms 28 and the inner edges of the arms bear the upper 10 annular coupling element. The upper annular coupling element may include retainers (not shown) that engage the pole portion 6 with their retaining action to prevent accidental disassembly. It is possible to attach the pole and the suspension by adhesive means.

INDUSTRIAL APPLICABILITY

The invention thus provides suitable 20 methods for the production of inertial vibration exciters, including integrated suspension assemblies, made as plastic molds or jointly cast.

Claims (21)

Patent Claims Electrodynamic inertial vibration for excitation of an element ( 2) having to maintain and distribute incoming φ 10 Claims 1. vibration energy capability comprising a drive coil assembly (3, 4) comprising a coil (3) fixedly fixed to the coil tubular skeleton (4), a magnetic assembly (5, 6,7) arranged concentrically with respect to the drive coil a coil assembly, means (11) suspending the magnetic assembly for axial motion relative to the drive coil assembly and carrier (9), supporting the drive coil assembly (3, 4) and adapted to be connected to the element (2) to be excited, characterized with coupling element (12) adapted for interconnecting with magnesium The assembly (5, 6,7) and the suspension means (11, 23,24) are connected between the carrier (9) and the connecting element (12). An inertial vibration exciter according to claim 1 or 2, characterized in that the carrier (9) is connected directly to the skeleton of the coil (4). An inertial vibration exciter according to claim 4, wherein the securing means comprises a retainer (13). An inertial vibration exciter according to any one of the preceding claims, wherein the carrier (9) and the suspension means (11,23,24) are integral. An inertial vibration exciter according to any one of the preceding claims, characterized in that • 2 1229/99-FS the coupling element (12) and the suspension means (11, 23,24) are integral. An inertial vibration exciter according to any one of the preceding claims, characterized in that the suspension (11, 23,24) is elastic Inertial vibration exciter according to claim 7, characterized in that the suspension (11, 23) is designed as a diaphragm. An inertial vibration exciter according to any one of claims 1 to 7, characterized in that the suspension (24) comprises a set of elastic arms (28). Inertial vibration exciter according to claim 9, when dependent on 4, characterized in that the coupling element (12) and the carrier (9) are annular and that the arms (28) are connected between the coupling element (12) and the carrier (9) for circumference. An inertial vibration exciter according to claim 10 characterized by a dust seal (10) closing the annular carrier (9). An inertial vibration exciter according to any preceding claim, characterized in that the carrier (9) has a surface adapted to contact the element (2). An inertial vibration exciter according to any one of the preceding claims, characterized in that an axial end (17) of the coil skeleton (4) is located and mounted in a groove (18) in the carrier (9). An inertial vibration exciter according to any of the preceding claims, characterized in that 1229/99-fC t3 that the coil (3) is mounted on the surface of the coil skeleton (4). An inertial vibration exciter according to any one of the preceding claims, characterized in that the magnetic assembly (5, 6,7) comprises opposing, generally disk-like, pole portions (6, 7) clamping the magnet (5), the periphery one (7) of which the pole portions are located inside and near the drive coil assembly (3, 4) and the periphery of the other (6) of which the pole portions are formed by a downward flange (8) arranged such that passes near and encloses the coil drive assembly (3, 4) to form a receiving cavity for the coil (20). An inertial vibration exciter according to claim 15, characterized in that the flange (8) is formed for assembly with the coupling element (12). An inertial vibration exciter according to claim 10 characterized by a protrusion (22) on the flange (8), which protrusion is formed for assembly with the coupling element (12) and by means of a locking means (13) on the coupling element and formed for gripping the protrusion (22). ). An inertial vibration exciter according to any preceding claim, characterized in that the suspension (24) comprises axially displaced pairs of suspension components (28), which are formed with one another as a whole. 19. Inertial vibration exciter according to claim 18, characterized in that the axially displaced pairs of suspension components (28) are cast 1229/99-FS together with the coil carrier (9) and the coupling element (12) for gripping and maintaining the magnetic assembly. 20. The inertial vibration exciter according to claim 19, characterized in that the suspension The 5 components (28) comprise respective holders of elastic arms (28), each of which is connected to the respective coupling element (12). A loudspeaker comprising an inertial vibration exciter as claimed in any preceding claim.