NZ229054A

NZ229054A - Compound loudspeaker drive unit

Info

Publication number: NZ229054A
Application number: NZ229054A
Authority: NZ
Inventors: Lawrence Reginald Fincham
Original assignee: Kef Electronics Ltd
Priority date: 1988-05-09
Filing date: 1989-05-09
Publication date: 1992-03-26
Also published as: GB8810943D0; KR900702744A; GB9023490D0; GB2236929A; EP0341926B2; DE68919746D1; HK71893A; EP0341926B1; GB2236929B; JP2766862B2; ATE115352T1; KR0171567B1; WO1989011201A1; EP0341926A1; CA1339519C; ES2065988T3; DE68919746T2; DE68919746T3; AU3558189A; JPH03504310A

Abstract

A compound loudspeaker drive unit is disclosed comprising a low frequency unit having an outwardly and forwardly flaring conical diaphragm (21) and a high frequency drive unit (27) located in or adjacent to the neck of the low frequency conical diaphragm such that the acoustic centres of the two units are substantially coincident and, for a cross-over frequency range in which both drive units contribute significant sound output, the directivity of sound radiation from the high frequency unit (27) as acoustically loaded by the low frequency conical diaphragm (21) is substantially the same as that of the low frequency unit. A magnet structure (28,29,30) for the high frequency unit utilises a magnet (29) formed of neodymium iron boron which enables the high frequency unit (27) to be positioned within a drive coil (23,24) for the low frequency diaphragm while providing a required high value of magnetic flux.

Description

<div class="application article clearfix" id="description"> 22 9 0 5 4 Priority Dait»<s>:. D Q . t=r . Q r-\ Cow"**.**** ®!cecification Filed: v^..:J . .jrl.O.Ur.^j../oU 2'6>iAR'i9tt -.s^Mcation D*»e: P.O. Joupru:, !yo: v./.>3iCLkV Patents Form No. 5 £/We, NEW ZEALAND PATENTS ACT 1953 COMPLETE SPECIFICATION LOUDSPEAKER .TE/ir r (• 'V ' ^ 1989 KEF ELECTRONICS LIMITED, A British Company, of Tovil, Maidstone, Kent ME15 6QP, UNITED KINGDOM hereby declare the invention, for which jt/we pray that a patent may be granted to rife/us, and the method by which it is to be performed, to be particularly described in and by the following statement: - 1 - (followed by page la) 229054 la LOUDSPEAKER This invention relates to loudspeakers and in particular to compound loudspeaker drive units in which separate « t diaphragms are provided for reproduction of the low and 5 high audio frequencies. /""s In some known loudspeaker systems, separate loudspeaker drive units are provided for reproduction of bands of audio frequencies, for example a woofer unit for 10 reproduction of sounds in a low frequency band and a tweeter unit for reproduction of sounds in a high frequency band. The voice coils of the loudspeaker drive units are connected to the output of a power amplifier, or other source, through a suitable cro-ss-over filter network 15 which ensures that only electrical signals representing sounds in the appropriate bands are applied to the individual loudspeaker voice coils. The characteristic - of the cross-over filter is arranged so that in a mid frequency cross-over band intermediate the low and high 20 frequency bands the outputs of the two loudspeaker drive units tail off; the output of the low frequency loudspeaker drive unit reduces with increase of frequency while the output of the high frequency loudspeaker drive unit reduces with decrease in frequency. At a so-called 25 crossover frequency the low and high frequency loudspeaker drive units have outputs which are equal but reduced in comparison with their outputs within their respective frequency bands. The electrical energisations of the (followed by page 2) 22 9 0 respective voice coils are adjusted so that the sound outputs of the loudspeaker drive units are relatively matched and together provide a substantially uniform output over the total frequency range of the combination 5 of the two loudspeaker drive units. The sound radiated from each of the drive units may be said to emanate from n the apparent sound source or acoustic centre of that unit; ' 'Nj"1' the position of the acoustic centre is a function of the design of the particular unit and may be determined by 10 acoustic measurement. When separate loudspeaker drive units are provided, the apparent sound sources are physically offset from one another. The loudspeaker drive units are usually mounted 15 on a common baffle such that they lie in a common plane and are offset in a vertical direction in the plane of the baffle. For a listener positioned approximately in line ,s~\ ^ with the axes of the loudspeaker drive units and approximately equidistant from the acoustic centres of 20 both drive units, a desired balance of output from the two drive units can be obtained. However if the position of the listener is moved from the equidistant position, the distances between the listener and the acoustic centres of the two loudspeaker drive units will be different and 25 hence sounds in the mid frequency band produced by both loudspeakers will be received by the listener from the two drive units with a difference in time. This time difference between sounds received from the two drive units results in a change in phase relationship of the sounds received at the listening position from the two drive units. The sounds from the two drive units no longer add together as intended in the cross-over band. Consequently the resultant received sound levels will vary with frequency and the overall sound output of the loudspeaker combination will appear to the listener to be non-uniform. The resulting raggedness in sound output colours the sound and, with stereo sound systems, there is a loss of clarity in the apparent location of instruments in the sound stage. This is particularly apparent in respect of sound frequencies in the upper mid-range, for example in the region of 3kHz, at which the offset of the drive units relative to one another is comparable to the wavelength of the sound. At a frequency of 3kHz the •e, wavelength is approximately 4 inches or 100 cm. ». \ In an attempt to overcome the undesirable effects on sounds received at positions which are not equidistant from the two loudspeaker drive units, it is known to combine the low and high frequency loudspeaker drive units in a single compound co-axial construction. The compound co-axial loudspeaker drive unit consists of a generally conical low frequency diaphragm driven by a voice coil interacting with a magnetic structure having a central pole extending through the voice coil. A high frequency diaphragm is positioned to the rear of the structure and sound output from this diaphragm is directed to the front X 22 9 0 5 of the loudspeaker drive unit by means of a horn structure extending co-axially through the centre pole of the magnetic structure which interacts with the low frequency diaphragm. Thus both the low frequency and high frequency 5 sounds are directed in a generally forward direction from the compound loudspeaker drive unit. In this co-axial form of loudspeaker construction there is no vertical or horizontal offset of the apparent sound sources for low and high frequencies. However the low frequency diaphragm 10 is positioned at the front of the loudspeaker unit whereas the high frequency diaphragm is positioned at the rear of the loudspeaker unit and this results in relative displacement of the apparent sound sources in the direction of the axis of the drive unit and an undesirable 15 time difference in the arrival, at the listener, of sounds from the high and low frequency diaphragms. According to one aspect of the invention a compound loudspeaker drive unit comprises a first transducer 20 operable to generate sounds in a low frequency range and a second transducer operable to generate sounds in a high frequency range, said low and high frequency ranges overlapping in a cross-over region; said first transducer having a conical diaphragm flaring outwardly and forwardly 25 from a neck; said second transducer being located in or adjacent to the neck of the conical diaphragm of the first transducer in such a position that effective acoustic centres of the first and second transducers are coincident 22 9 0 5 5 and that in the cross-over region the flaring of the conical diaphragm imposes a directivity upon the radiation ^ of sound from the second transducer whereby the directivities of the first and second transducers are 5 matched over frequencies in the cross-over region where both transducers make significant contributions to the -\ sound output of the drive unit. According to a second aspect of the invention a compound 10 loudspeaker drive unit comprises a low frequency moving coil drive unit and a high frequency moving coil drive unit; said high frequency drive unit including magnetic means interacting with the moving coil thereof, said magnetic means including a permanent magnet formed of 15 neodymium iron boron or of material having magnetic properties substantially similar or superior thereto. Preferably the compound loudspeaker drive unit includes a low frequency drive unit comprising a substantially 20 frusto-conical low frequency diaphragm flaring outwardly in a forward direction from a neck thereof, a low frequency voice coil connected to said neck of the diaphragm; and first magnetic means providing a magnetic flux interacting with the low frequency voice coil whereby 25 electrical energisation of the voice coil is effective to impart movement to the diaphragm to produce sounds in a low frequency range; and a high frequency loudspeaker drive unit positioned 22 9 0 adjacent to said neck of the low frequency diaphragm and comprising a high frequency diaphragm carrying a high r> f requency voice coil; and second magnetic means including a permanent magnet formed of neodymium iron 5 boron, or of a material having magnetic properties substantially similar or superior thereto, providing a magnetic flux interacting with the high frequency voice coil whereby electrical energisation of the high frequency voice coil is effective to impart movement to the high 10 frequency diaphragm to produce sounds in a high frequency range overlapping the low frequency range in a cross-over band. Preferably the high frequency drive unit is disposed 15 relative to the low frequency drive unit such that the apparent sound sources of the two units are substantially coincident. /—\ If desired an annular baffle member may be provided 20 effective to provide a continuation of the surface of the ^ low frequency diaphragm toward the high frequency G diaphragm. According to a third aspect of the invention in a 25 loudspeaker comprising co-axially disposed low and high frequency drive units the high frequency drive unit is manufactured separately from said low frequency drive unit and is secured to a pole piece of magnetic means of the 7 22 9 0 5 low frequency drive unit. Preferably the pole piece of the low frequency drive unit has a central bore extending therethrough and the high 5 frequency drive unit has a rod, preferably of non-magnetic material, projecting therefrom and engaging within said bore to locate the high frequency drive unit relative to the low frequency drive unit. 10 An embodiment of the invention will now be described by way of example with reference to the drawing which shows a cross section through the axis of a moving coil compound loudspeaker drive unit. 15 Referring to the drawing, a compound loudspeaker drive unit with low frequency and high frequency transducers having co-axial low and high frequency voice coils w comprises a chassis 10 in the form of a conical basket having a front annular rim 11 connected to a rear annular 20 member 12 by means of a number of ribs 13. The rear annular member 12 has an annular flange 14 and an annular """ seat 15. Secured to the flange 14 is a first magnetic structure 16 for the low frequency loudspeaker drive unit. The magnetic structure 16 comprises a magnet ring 17, 25 which may for example be formed of barium ferrite, a front annular plate 18 which forms an outer pole and a member 19 which forms a backplate and inner pole 20. The plate 18, magnet ring 17 and member 19 are held together to provide I* 22 9 0 5 8 a magnetic path interrupted by a non-magnetic air gap between the outer pole 18 and the inner pole 20. The poles are circular and form therebetween an annular air gap. The low frequency transducer or loudspeaker drive 5 unit comprises a diaphragm 21 of generally frusto-conical form supported along the front outer edge thereof by a flexible surround 22 secured to the front rim 11 of the chassis 10. A tubular coil former 23 is secured to the rear edge of the diaphragm 21 and is arranged to extend 10 co-axially of the air gap in the magnetic structure 16. The coil former carries a voice coil 24 positioned on the former such that the coil extends through the air gap. The coil is of sufficient axial length as to ensure that for normal excursions of the voice coil, the poles always 15 lie within the length of the voice coil. A suspension member 25, in the form of a spider consisting of inner and outer rings interconnected by flexible legs or consisting '""""'I of a corrugated sheet having annular corrugations, is secured between the coil former 23 and the annular seat 15 20 of the chassis 10 in order to ensure that the coil former, and voice coil carried thereby, are maintained concentric with the poles of the magnetic structure and out of physical contact with the poles during sound producing excursions of the diaphragm 21. The backplate and inner 25 pole member 19 has a bore 26 extending co-axially thereof for the purpose of mounting a high frequency drive unit 27. 22 9 0 5 9 The high frequency transducer or drive unit 27 comprises a second magnetic structure consisting of a pot 28, a disc li*m\ shaped magnet 29 and a disc shaped inner pole 30. The pot 28 has a cylindrical outer surface so dimensioned as to 5 fit within the interior of the coil former 23 without making physical contact therewith. The pot is formed with a circular recess 31 to receive the magnet 29 and an annular lip 32 to form an outer pole. One circular pole face of the magnet 29 is held in engagement with the 10 bottom wall of the recess 31 and the disc shaped inner pole 30 is held in engagement with the other circular pole face of the magnet such that the circular outer periphery of the inner pole 30 lies co-axially with and within the lip 32 forming the outer pole. A non-magnetic air gap 15 extends between the inner and outer poles. A spacer ring 33 is secured to the front face of the pot 28. Preferably the magnet 29 is formed of neodymium iron boron which ' allows a very substantially enhanced magnetic field strength as compared with other available magnetic 20 materials to be attained in the air gap between the poles. As a result, the overall size of the high frequency magnetic structure, for a required flux in the air gap, can be smaller than hitherto thereby allowing the high frequency drive unit to be positioned within the coil 25 former of the low frequency drive unit immediately adjacent to the apex of the low frequency diaphragm 21. However it will be appreciated that the magnet 29 may be formed of other materials having magnetic properties 22 9 0 5 10 substantially similar or superior to that of neodymium iron boron. A high frequency domed diaphragm 34 has an annular support 35 of annular corrugated form and this support is secured at its outer periphery to the spacer 5 ring 33. Secured to the domed diaphragm 34 is a cylindrical coil former carrying a high frequency voice /""""n coil 36 such that the voice coil extends through the air gap between the poles 30, 32 of the magnetic structure. 10 In order to centralise the high frequency unit relative to the low frequency unit, and in particular to ensure that the high frequency unit is coaxial with and does not interfere with motion of the low frequency voice coil a rod 37, preferably of non-magnetic material, is secured 15 centrally to the rear face of the pot 28 and extends through the bore 26 of the low frequency magnetic structure. The high frequency drive unit tends to be held in engagement with the pole 20 of the magnetic structure 16 by magnetic attraction therebetween but is secured to 20 the structure 16 by a threaded end portion 38 of the rod ^ 37 extending through an aperture in a plate 39 positioned ^ at the rear of the backplate 19 and a nut 40 threaded onto the end portion 38. 25 Connections to the low frequency voice coil 24 are provided by means of flexible leadout conductors 41 extending from the voice coil 24 to external connectors 42. Connections to the high frequency voice coil 36 are 11 22 9 0 5 4 provided by flexible conductors 43 which extend along a recess in the outer wall of the pot 30, between the pot 30 and the inner pole 20 and thence through the bore 26 to external connectors (not shown). In order to allow the 5 conductors to extend through the bore 26, the rod 37 has a ; diameter smaller than that of the bore 26 so as to leave an annular space through which the conductors 43 extend. Means, not shown, are provided between the pole piece 20 and the pot 28 to ensure that the rod lies co-axially with i 10 the bore 26. This means may be a disc secured to the pole piece 20 and having a central aperture of a diameter to : receive the rod 37 in a sliding fit. The disc may be grooved to provide a passageway for the conductors 43 between the pole piece 20 and the pot 28. The rod 37 may 15 be of circular, hexagonal or other section and the disc would be provided with a central aperture of matching shape. Instead of utilising a rod 37 of diameter smaller than 20 that of the bore 26, if the rod is of hexagonal section ^ its diameter may be of a size such that the rod is a sliding fit in the bore 26 to locate the high frequency drive unit co-axially of the pole piece 20 of the low frequency drive unit. Spaces between the faces of the 25 hexagonal section rod and the wall of the bore 26 provide passageways for the conductors 43. Instead of using a plate 39 to secure the high frequency drive unit, a moulding may be used. The moulding would be located by 22 9 0 12 means of a boss on the moulding entering the bore 26. The moulding may be so formed as to provide a mounting for other components such as the electronic components of a cross-over filter and terminals for electrical drive 5 signals for the compound loudspeaker drive unit. As an alternative to the end 38 of the rod 37 being externally threaded, the end of the rod may be bored and threaded internally to receive a screw. 10 The construction described hereinbefore is particularly convenient in manufacture of the compound loudspeaker drive unit in that the high frequency drive unit is centralised relative to the low frequency drive unit prior to the high frequency drive unit reaching its final rest 15 position on the pole piece 20. As a result the high frequency unit is prevented from engaging the low frequency voice coil during assembly of the compound loudspeaker drive unit. Furthermore this construction facilitates dis-assembly of the high frequency drive unit 20 from the low frequency drive unit if and when any servicing of the units is necessitated without any need to demagnetise either of the magnetic assemblies. If desired, an annular baffle 44 having a frusto-conical 25 front surface is secured to the front of the high frequency drive unit to provide a continuation of the surface of the low frequency diaphragm 21 towards the domed high frequency diaphragm. 22 9 0 5 4 13 It will be appreciated that with the high frequency drive unit positioned at or adjacent to the neck of the diaphragm of the low frequency drive unit, as in the above described construction of compound loudspeaker drive unit, 5 the apparent sound source or acoustic centre of the high frequency drive unit is substantially co-incident with the apparent sound source or acoustic centre of the low frequency drive unit. The radiation pattern or directivity of the low frequency drive unit is determined 10 inter alia by the form of the low frequency diaphragm. With the high frequency drive unit positioned adjacent to the neck of the low frequency diaphragm, the form of the low frequency diaphragm imposes its directivity upon the radiation pattern or directivity of the high frequency 15 unit. Consequently at frequencies at which both drive units contribute significant sound output, both drive units have substantially similar patterns of radiation or directivity. As a result the relative sound contributions from the two drive units as perceived by a listener are 20 substantially unaffected by the listener being positioned at off axis positions. The low frequency conical diaphragm is shown in the drawing as being of conical form having an angle of flare 25 which increases from the neck of the diaphragm toward the outer periphery of the diaphragm. However it will be appreciated that the diaphragm may be of conical form a 22 9 0 14 having a uniform angle of flare. Also, the low frequency conical diaphragm may be of circular, elliptical or other section as desired. 5 The high frequency diaphragm is shown in the drawing as being of domed form. Such a diaphragm is suitable because its acoustic centre may readily be located in close coincidence with that of the low frequency diaphragm, and because, in the frequency range where both drive units 10 contribute significant sound output, its small size relative to wavelength gives it, by itself, essentially non-directional sound radiation, allowing the effective directivity to be determined by the low frequency diaphragm. It will be appreciated that the high frequency 15 diaphragm may alternatively be of any other form that provides these characteristics. 20 25 </div>

Claims

<div class="application article clearfix printTableText" id="claims"> 22 90 5 15 WHAT iiWE CLAIM fS:-efcMMS"

1. A compound loudspeaker drive unit comprising a first transducer operable to generate sounds in a low frequency range and a second transducer operable to generate sounds 5 in a high frequency range, said low and high frequency ranges overlapping in a cross-over region; said first ^ transducer having a conical diaphragm flaring outwardly and forwardly from a neck; said second transducer being located in or adjacent to the neck of the conical 10 diaphragm of the first transducer in such a position that effective acoustic centres of the first and second transducers are coincident and that in the cross-over region the flaring of the conical diaphragm imposes a directivity upon the radiation of sound from the second 15 transducer whereby the directivities of the first and second transducers are matched over frequencies in the cross-over region where both transducers make significant contributions to the sound output of the drive unit. 20

2. A compound loudspeaker drive unit as claimed in claim 1 -a* wherein the second transducer includes a high frequency diaphragm operable to generate sounds in the high frequency range and which has a form such that sound radiated thereby without the acoustic loading of the low 25 frequency diaphragm would be substantially non-directional for frequencies in the crossover region.

3. A compound loudspeaker drive unit as claimed in claim 2 27-JAN-1992 00:02 076 388 455 P.08 ?290!j4 16 wherein the high frequency diaphragm is of domed form.

4. A compound loudspeaker drive unit as claimed in claim 1, 2 or 3 wherein the second transducer has a magnetic 5 structure including a permanent magnet formed of neodymium iron boron or of material having magnetic properties substantially similar or superior thereto.

5. A compound loudspeaker drive unit as claimed in claim 10 1, 2 or 3 wherein the second transducer includes a high frequency diaphragm; a high frequency voice coil secured to said high frequency diaphragm and magnetic means interacting with said high frequency voice coil; said magnetic means including a permanent magnet formed o£ 15 neodymium iron boron or of material having magnetic properties substantially similar or superior thereto.

6. A compound loudspeaker drive unit as claimed in any one of claims 1 to 4 wherein the first transducer includes a low frequency voice coil connected to the neck of the conical diaphragm; and first magnetic means providing a magnetic flux interacting with the low frequency voice coil whereby electrical energisation of the voice coil is effective to impart movement to the diaphragm to produce sounds in a low frequency range; and the second transducer includes a high frequency diaphragm carrying a high frequency voice coil; and second magnetic means including a permanent magnet formed of neodymium 20 27-JAN-1992 00:02 076 388 455 P.09 "290^4 17 20 o iron boron, or of a material having similar magnetic properties thereto, providing a magnetic flux interacting with the high frequency voice coil whereby electrical energisation of the high frequency voice coil is effective to impart movement to the high frequency diaphragm to produce sounds in a high frequency range overlapping the low frequency range in a cross-over band.

7. A compound loudspeaker drive unit as claimed in claim 6 including an annular baffle member extending around the high frequency diaphragm and effective to provide a continuation of the surface of the low frequency diaphragm toward the high frequency diaphragm.

8. A compound loudspeaker drive unit as claimed in claim 6 or 7 wherein first magnetic means includes a central pole piece with a central bore extending therethrough and the second magnetic means is secured to a rod, preferably of non- magnetic material, engaging within said bore to locate the second transducer relative to the first transducer.

9. A compound loudspeaker drive unit as claimed in claim 8 including means securing a free end of the rod to the first transducer. 27-JAN-1992 00:03 07S 388 455 P.10 >290^4 18

10. A compound loudspeaker drive unit as claimed in claim 9 wherein the means securing the free end of the rod comprises a moulding formed to act as a mounting for other components of the loudspeaker. 5

11. A compound loudspeaker drive unit as claimed in any one of claims 8, 9 or 10 including conductors providing connections to the high frequency voice coil, said conductors extending from said high frequency voice coil 10 through the bore in the central pole piece of the first magnetic means.

12. A compound loudspeaker drive unit constructed and arranged to operate substantially as hereinbefore 15 described with reference to the accompanying drawing. 20 KEF ELECTRONICS LIMITED M 25 By their Attorneys BALDWIN, SON & CAREY </div>