SK102299A3 - Electro-dynamic inertial vibration exciter - Google Patents

Abstract

An electro-dynamic inertial vibration exciter (1) for exciting a member (2) having capability to sustain and propagate input vibrational energy comprising a motor coil assembly (3, 4) having a coil (3) rigidly fixed to a tubular coil former member (4), a magnet assembly (5, 6, 7) disposed concentrically with respect to the motor coil assembly, and means (11) suspending the magnet assembly for axial movement relative to the motor coil assembly, characterised by a carrier (9) supporting the motor coil assembly (3, 4) and adapted for connection to the member (2) to be excited.

Description

Technology -

The invention relates to an electrodynamic exciter used, for example, to activate a loudspeaker consisting of a panel-shaped resonant radiating element of the type described in co-pending International Patent Application published on September 2, 1996 under WO 97/09842.

BACKGROUND OF THE INVENTION

In particular, the invention is an electrodynamic inertial vibratory exciter, for example of the general type, described in co-pending International Patent Application published on September 2, 1996 under WO 97/09859, which discloses a inertial vibratory exciter equipped with a drive coil assembly comprising a coil fixedly mounted on a a tubular coil frame, a magnetic unit arranged concentrically with the drive coil assembly and forming the inertia mass, and a resilient means on which the magnetic unit is mounted for axial movement with respect to the drive coil assembly, the tubular member being adapted to be fixed directly to the vibratory member , for example, to a resonant panel loudspeaker, using an adhesive.

SUMMARY OF THE INVENTION

The invention provides an efficient exciter design and manufacturing techniques for making such exciters. An electrodynamic inertial vibration exciter for driving a member allowing to maintain and propagate the input vibration energy is provided with a drive coil assembly comprising a coil firmly attached to the coil frame, a magnet unit arranged concentrically with the drive coil kit, and a suspension unit on which the magnet is mounted on which movement with respect to the drive coil assembly, according to the invention, which comprises the carrier on which the drive coil assembly is mounted and which is adapted to be coupled to the member to be excited.

The carrier may be directly attached to the coil body. A suspension means may be attached to the carrier. A coupling member adapted to support the magnet unit can be attached to the support by a suspension means.

The coupling member and the magnet unit may be adapted to be mutually supported, and fastening means may be provided on the coupling member and the magnet unit for attaching the coupling member and the magnet unit to each other. The fastening means may comprise a latch. The carrier and the suspension means may be integral. Also, the coupling member and the hinge means may be integral. The hinge may be flexible. The hinge may be a membrane. Alternatively, the hinge may be formed by a plurality of resilient arms. The connecting member and the carrier may be annular and the arms may be connected between the connecting member and the carrier and may be circumferentially arranged.

The face of the carrier may be adapted to contact the resonant member and may be arranged to be attached to the member, for example by adhesive or clamping means. The carrier may be integrally formed with a flange arranged to be attached to the resonant member. The flange may be disc-shaped and may be arranged to receive the exciter in the resonant member cavity with its peripheral portion. The disc may be configured to close this cavity.

One end of the coil carcass may be supported and fixed in the recess of the carrier. The coil may be mounted on the outer face of the coil body.

The magnet unit may be provided with oppositely arranged poles, generally in the form of discs, between which a magnet is arranged, the circumference of one pole being arranged closely within the drive coil assembly, and the circumference of the other pole being formed by a flange facing downwards. spool set. The flange may be adapted to be interlocked with the coupling. An edge may be formed on the flange, which is shaped to be interlocked with the coupling member, and a clamping means may be provided on the coupling member to engage the edge. The ring-shaped support may be sealed with a dust seal.

The suspension means of the magnet unit, for axial movement with respect to the drive coil assembly, may be formed by a pair of axially spaced suspension parts or components to facilitate axial guidance of the voice coil with respect to the drive coil assembly, the suspension parts may be of any desired shape. sets of flexible arms. The individual outer ends of the resilient arms of each hinge portion may be connected to one another by supports, the lower ends of which form the beads adapted to contact the resonant member. The inner ends of the arms may carry individual annular connecting members adapted to receive the magnet unit.

According to another aspect of the invention, the loudspeaker is equipped with an inertial vibration exciter as described above.

Overview of the figures in the drawing

BRIEF DESCRIPTION OF THE DRAWINGS The invention is explained in more detail with reference to the drawing, in which: FIG. 1 is a cross-sectional side view of a first embodiment of an inertial electrodynamic vibratory exciter of the invention; FIG. 2 is a cross-sectional, side and exploded view of the embodiment of FIG. 1, FIG. 3 is a cross-sectional, side and enlarged view of a detail of the embodiment of FIG. 1; FIG. 4 is a plan view of the hinge of FIG. 1, FIG. 5 is a plan view similar to FIG. 4 shows a modified hinge shape for use in the embodiment of FIG. 1, FIG. 6 is a plan view similar to FIG. 4 shows another modified hinge shape for use as an exciter of the type shown in FIG. 1, FIG. 7 shows one embodiment of an inertial electrodynamic vibratory exciter adapted to be embedded in the resonant member to be excited; FIG. 8 is a plan view similar to FIG. 4, for the exciter of FIG. 7, FIG.

a perspective view of a modified hinge shape for an exciter of the type generally shown in FIG. 1, FIG. 10 is a side view of the hinge of FIG. 9, in section along a line

Y-Y of FIG. 11 and FIG. 11 is a cross-sectional view taken along the line X-X in FIG. 10th

DETAILED DESCRIPTION OF THE INVENTION

In FIG. 1 to 4 show a first embodiment of an inertial electrodynamic vibratory exciter 1 of the general type described in International Patent Application WO 97/09859, for example, to excite vibrations by bending waves in a resonant member 2, e.g. a panel-shaped member of the general type described in International Patent Application WO 97/09842, to form a loudspeaker.

The exciter 1 is comprised of a drive coil assembly 2, 4 and a magnet unit 5, 2, 2 forming an inertial mass adapted to move relative to the drive coil assembly 2, 6, wherein the exciter 1 is adapted to be attached in any suitable manner to a resonant member 2 to be excited to transmit the energy of the bending wines to the resonant member 2 when an excitation signal is applied to the exciter.

The drive coil assembly 2/6 is formed by an oscillating coil 2, for example from a wire wound onto a tubular coil frame 6, which is supported by its lower end 12, as shown in FIG. 1, in an annular groove 12, in an annular coil support 3 forming a shoe, by which the drive coil assembly 2, 4 is attached, for example by means of glue or the like, to the face of the resonant panel 2. 2 with fastening means, for example clamps. These clamps may be releasable. They may be formed by a bayonet connector, one part of which is fixed to the resonant member 2 and the other part is formed as part of the exciter 1. The coil carcass 6 may be fixed in the groove 18 by means of an adhesive.

Around the drive coil assembly 2A is an annular coupling member 12 which is connected to the carrier 2 of the drive coil assembly 2A by a resilient annular suspension membrane 11, for example of rubber material, which is formed with an annular ripple 19 to facilitate axial The carrier 2 and the connecting member 12 may be made of hard plastic and may be cast together with the resilient membrane 12 to form an integrated suspension component or unit. The interior of the annular support 2 is closed by a disc 10 of foamed plastics, for example, to form a dust seal closing the interior of the exciter.

The magnet unit 5, 1, 1, 1 is formed by a disc magnet 2 disposed between opposing poles 2, 2, the first pole 2 having the shape of a disc and having the same range as the magnet 2, and the second pole 2 having the shape of a bowl and shaped together with a downwardly facing flange 2 surrounding the magnet 2 and the first pole 2 to form an annular slot 20 for receiving the voice coil 2. The free end of the flange 2 is formed as an outwardly extending edge 22 which is formed with an annular recess 21 at its outer end to define a sleeve into which the connecting member 22 can be slidably received so that the smooth end and the sleeve connection firmly hold together the magnet unit and the drive coil assembly. The latching couplings 12 on the coupling member 12 engage the rim 22 and prevent it from disengaging.

A pair of end flanges 1A carrying electrical terminals 12 (see FIG. 3) are formed on the coupling 12 and are electrically connected to the voice coil 2 by coil wires or tongues 12 through which the coil can be connected to a signal source and thereby energized.

In FIG. 5 shows a modified shape of the onion hinge dock or exciter unit described in FIG. 1 to 4, wherein the flexible membrane 11 of FIG. 4 is replaced by a relatively rigid membrane 23 of a textile fabric impregnated with a plastic, for example an epoxy resin. The rigid membrane 22 is formed as part of the connecting member 12 and the coil support 2, for example by injection molding the members 2 and 12 into the membrane.

In FIG. 6 shows an alternative shape of the hinge component or driver unit described in FIG. 1 to 4, wherein the coil support 2, the coupling member 12 and the elastic hinge 28 therebetween are formed as part of an annular member 24 of resilient plastic by casting the annular member 24 with peripheral slits 25 whose arms extend partially around the annular member 24. dividing said member into an outer portion 25 forming a connecting member 12 and an inner portion 22 forming a coil support 2, wherein the inner and outer portions 22 and 25 are separated and connected by a flexible hinge formed by a row of three arms 28 delimited by slits 25 and wherein the outer ends 22 of the arms are connected to the outer portion 26 and the inner ends 25 of the arms are connected to the inner portion 22. This hinge thus works by bending the flexible arms.

In FIG. 7 and 8, there is shown an arrangement in which the previously described exciter 1 is embedded in a cavity 31 in a panel-shaped resonant member 2. In this case, the carrier 2 is shaped as part of an outwardly protruding flange 22, in the form of a disc, by means of which the exciter 1 is fixed in a recess 22 surrounding the cavity 21 on the face 34 of the resonant member 2 and by which the cavity 31 is closed.

In FIG. 9 to 11, the exciter of the general type described in FIG. 1-3 using the modified shape of the hinge component or unit of FIG. 6. In this case, however, the suspension component consists of two axially spaced sets of resilient arms 25, in order to further improve the guidance of the magnet unit 2, 5, 2 relative to the drive coil assembly 2, 4. It should be noted that FIG. 9, the magnet unit shown is separated from the hinge component, although only one pole 5 is visible. Also, the hinge component is shown partially detached in its right part, for clarity.

Ί

The hinge component or unit consists of a single plastic casting forming a carrier 2, a connecting member 12 and a corresponding set of resilient arms 28. The connecting member 12 is formed by an upper and a lower part, as described in more detail below.

At its base, the hinge component comprises an annular carrier 6, shaped with an annular groove 18, for receiving and positioning the end 17 of the coil former. Outside the carrier

2, a series of connecting rods 25 are provided, the outer ends of which are connected to the feet 36 which are adapted to be supported against an elastic member (not shown). The feet 28 support the outer ends 29 of the lower set of elastic arms 28.

The inner ends 30 of the lower set of resilient arms 28 carry a lower annular connecting member 12 having an upturned flange 37 adapted to skidly support and support the lower end of the flange S of the second pole 6 of the magnet unit of the general type shown in FIG. 1 and 2.

The feet 36 support the upwardly extending abutments 28 which support the upper hinge member, consisting of an upper set of resilient arms 28 supporting the upper annular connecting member 12 adapted to skidly accommodate the flange S of the second pole 6. The upper hinge member is arranged such that the upper ends of the abutments 38 support the outer ends of the set of arms 28, wherein the inner ends of the arms support the upper annular connecting member. The upper annular connecting member may be provided with clamps (not shown) which engage the second pole 6 by means of a latch to prevent accidental disconnection. Alternatively, the pole and the hinge may be connected to each other by means of an adhesive.

Industrial usability

The invention provides a suitable method for manufacturing inertial vibratory exciters, including integrated suspension units formed as plastic castings or common plastic castings.

Claims (21)

PATENT CLAIMS I An electrodynamic inertial vibration exciter for driving a member capable of retaining and propagating an input vibration energy, comprising a drive coil assembly comprising a coil firmly attached to a coil tubular frame, a magnet unit arranged concentrically with the drive coil assembly of which means; is a magnet unit suspended for axial movement thereof with respect to the drive coil assembly and from the carrier on which the drive coil assembly is mounted, and which is adapted to be coupled to a member to be excited, characterized in that it is provided with a coupling member (12), which is adapted to be interlocked with the magnet unit (5, 6, 7), wherein a suspension means (11, 23, 24) is connected between the carrier (9) and the coupling (12). The inertial vibration exciter according to claim 1, characterized in that the support (9) is directly connected to the coil frame (4). An inertia vibratory exciter according to claim 1 or 2, characterized in that it is provided with fastening means (13) on the coupling member (12) and on the magnet unit (5, 6, 7) for connecting the coupling member (12) to the unit. (5, 6, 7) magnet. The inertial vibratory exciter according to claim 3, characterized in that the fastening means (13) is a snap-fit coupling. The inertial vibratory exciter according to claims 1 to 4, characterized in that the carrier (9) and the suspension means (11, 23, 24) are integral. The inertial vibratory exciter according to claims 1 to 5, characterized in that the coupling member (12) and the suspension means (11, 23, 24) are integral. The inertial vibratory exciter according to claims 1 to 6, characterized in that the suspension means (11, 23, 24) is resilient. An inertia vibratory exciter according to claim 7, characterized in that the suspension means (11, 23) is designed as a membrane. The inertial vibration exciter according to claims 1 to 7, characterized in that the suspension means (24) is formed by a set of resilient arms (28). An inertia vibratory exciter according to claim 9, in accordance with claim 4, characterized in that the coupling member (12) and the carrier (9) are ring-shaped, wherein arms (9) are connected between the coupling member (12) and the carrier (9). 28), They are also arranged circumferentially. An inertia vibratory exciter according to claim 10, characterized in that it is provided with a dust seal (10) closing the annular support (9). The inertial vibratory exciter according to claims 1 to 11, characterized in that the support (9) has a face adapted to contact the member (2). The inertial vibratory exciter according to claims 1 to 12, characterized in that the axial end (17) of the coil former (4) is located and fixed in the recess (18) in the carrier (9). The inertia vibratory exciter according to claims 1 to 13, characterized in that the coil (3) is mounted on the outer face of the coil frame (4). The inertial vibratory exciter according to claims 1 to 14, characterized in that the magnet unit (5, 6, 7) is formed by a magnet (5) arranged between opposing disc poles (6, 7), wherein the circumference of the first pole (7) is arranged closely within the drive coil assembly (3, 4), and the circumference of the second pole (6) is formed by a flange (8) facing downwardly arranged to fit tightly around the drive coil assembly (3, 4) to form an annular slot (3). 20) to accommodate the spool (3). The inertial vibratory exciter according to claim 15, characterized in that the flange (8) is adapted to be interlocked with the coupling member (12). An inertial vibratory exciter according to claim 10, characterized in that an edge (22) is formed on the flange (8), which is shaped to be interlocked with the coupling member (12), the fastening means (13) on the coupling member (12). 12) is adapted to engage the rim (22). An inertia vibratory exciter according to claims 1 to 17, characterized in that the hinge (24) is formed by a pair of mutually axially arranged hinge components (28) which are integrally formed with one another. The inertial vibratory exciter according to claim 18, characterized in that a pair of mutually axially arranged suspension components (28) is cast together with the coil support (9) and the coupling member (12) to receive and support the magnet unit. An inertia vibratory exciter according to claim 19, characterized in that the suspension components (28) are formed by a set of resilient arms (28), each of which is connected to a respective coupling member (12). A loudspeaker equipped with an inertial vibration exciter according to claims 1 to 20.