RU2788343C1 - Electrodynamic emitter - Google Patents

Abstract

FIELD: acoustics.

SUBSTANCE: invention relates to acoustics. The electrodynamic emitter in accordance with the first embodiment contains a frame on which two pairs of jaws are fixed, located at least on one side of the frame and made with the possibility of adjusting the position and fixing along the longitudinal axis of the frame, a magnetic system located on the frame with at least one side and made of permanent magnets, and at least one terminal board for connecting conductors to an electric circuit. Moreover, a diaphragm is fixed between the jaws, at least on one side of which conductors are applied, permanent magnets on the frame and conductors on the diaphragm are located diagonally at an angle to the longitudinal axis of the frame, while the angle of inclination of the permanent magnets and the angle of inclination of the conductors to the longitudinal axis of the frame are equal and are in the range from 1 to 89 degrees, and the surfaces of said jaws, between which the diaphragm is fixed, are made with a profile in the form of periodic sinusoidal waves, and when the diaphragm is tensioned, said surfaces of the jaws provide the formation of corrugations on the diaphragm.

EFFECT: increase in the acoustic power of the emitter, decrease in non-linear distortion, decrease in parasitic resonances, increase in sound dispersion.

6 cl, 13 dwg

Description

FIELD OF TECHNOLOGY

The invention relates to the field of electroacoustics and can be used to create acoustic systems and headphones. The disadvantage of the known structures is that when fluctuations occur in the gaps between the magnets and the diaphragm, areas of high and low pressure are created, which zonal damp the diaphragm in these areas under the magnets. As a result, as the amplitude increases, the mismatch between the movement of the active and passive sections of the diaphragm increases, which leads to phase, amplitude, harmonic, and transient distortions.

BACKGROUND OF THE INVENTION

In the application RU 2580217 C1, publ. 04/10/2016 the design of the electrodynamic emitter is described. The invention is aimed at increasing the acoustic power of the emitter, reducing nonlinear and parasitic resonances. The result is achieved by trapezoidal or semicircular magnets and diaphragm corrugation. Where the shape of the magnets reduces acoustic resistance due to air flow and a more uniform field, and the corrugations increase the acoustic power of the emitter. However, the corrugations obtained technologically must have sufficient thickness to retain their shape, which reduces the sensitivity of the sound emitter. In addition, in this transducer, with a transverse arrangement of conductors relative to the corrugations, the reduction of resonances is ensured by the application of a vibration-damping material, which increases the mass of the diaphragm. In addition, the transverse arrangement of conductors leads to an increase in resonances.

DISCLOSURE OF THE INVENTION

The objective of the claimed invention is the development of an electrodynamic emitter, in which there are no shortcomings of known electrodynamic emitters.

The technical result of the claimed invention is to increase the acoustic power of the emitter, reduce non-linear distortion, reduce parasitic resonances, increase the sound dispersion.

This technical result is achieved due to the fact that the electrodynamic emitter contains a frame on which two pairs of jaws are fixed, located at least on one side of the frame, and made with the possibility of adjusting the position and fixing along the longitudinal axis of the frame, a magnetic system located on the frame along on at least one side and made of permanent magnets, and at least one terminal board for connecting conductors to an electrical circuit. Moreover, a diaphragm is fixed between the jaws, at least on one side of which the conductors are applied. Moreover, the permanent magnets on the frame and the conductors on the diaphragm are located diagonally at an angle to the longitudinal axis of the frame, while the angle (β) of the inclination of the permanent magnets and the angle (β1) of the inclination of the conductors to the longitudinal axis of the frame are equal and range from 1 to 89 degrees, and the surfaces of said jaws, between which the diaphragm is fixed, are made with a profile in the form of periodic sinusoidal waves, and when the diaphragm is tensioned, said surfaces of the jaws provide the formation of corrugations on the diaphragm.

Terminal boards are made with jumpers.

The surface of the permanent magnets facing the diaphragm is made with a profile in the form of periodic sinusoidal waves, and with an angle (β2) of inclination of the cross section of the profile relative to the longitudinal axis of the magnet, equal to the angle (β) of inclination of the permanent magnets to the longitudinal axis of the frame and is in the range from 1 up to 89 degrees.

The specified technical result is also achieved due to the fact that the electrodynamic emitter contains a frame on which two pairs of jaws are fixed, located on at least one side of the frame, and made with the possibility of adjusting the position and fixing along the longitudinal axis of the frame, a magnetic system located on the frame on at least one side and made of permanent magnets, and at least one terminal board for connecting conductors to an electric circuit. Moreover, a diaphragm is fixed between the jaws, at least on one side of which the conductors are applied. Moreover, the permanent magnets on the frame and the conductors on the diaphragm are located diagonally at an angle to the longitudinal axis of the frame, while the angle (β) of the inclination of the permanent magnets and the angle (β1) of the inclination of the conductors to the longitudinal axis of the frame are equal and range from 1 to 89 degrees, and said jaws, between which the diaphragm is fixed, are made with a profile in the form of a comb, with a profile step Р=0.5-50 mm, a profile angle α=1-179 degrees and a radius R=(0.001-0.25)⋅P, moreover, under tension diaphragm said surfaces of the jaws provide the formation of corrugations on the diaphragm.

Terminal boards are made with jumpers.

The surface of the permanent magnets facing the diaphragm is made with a comb-shaped profile, with a profile step P=0.5-50 mm, and with a profile angle α=1-179 degrees, a radius R=(0.001-0.25)⋅P, an angle (β2) inclination of the cross-section of the profile, equal to the angle (β) of inclination of the permanent magnets to the longitudinal axis of the frame.

BRIEF DESCRIPTION OF THE DRAWINGS

The invention will be better understood from the description, which is not restrictive and given with reference to the accompanying drawings, which show:

In FIG. 1 shows a general view of the electrodynamic for acoustic systems.

In FIG. 2 shows a general view of an assembled electrodynamic radiator for acoustic systems.

In FIG. 3 shows a general view of an electrodynamic emitter for headphones.

In FIG. 4 is a top view of an electrodynamic loudspeaker transducer according to a first embodiment of the invention.

In FIG. 5 is a sectional view of an electrodynamic loudspeaker transducer incorporating magnets in accordance with a first embodiment of the invention.

In FIG. 6 is a sectional view of an electrodynamic radiator comprising a diaphragm and sponges in accordance with a second embodiment of the invention.

In FIG. 7 is a sectional view of an electrodynamic radiator comprising a diaphragm and sponges according to a first embodiment of the invention.

In FIG. 8 is a sectional view of an electrodynamic speaker driver incorporating magnets according to a second embodiment of the invention.

In FIG. 9 shows a top view of an electrodynamic headphone driver.

In FIG. 10 is a sectional view of an electrodynamic headphone driver incorporating magnets according to a second embodiment of the invention.

In FIG. 11 is a sectional view of an electrodynamic headphone driver incorporating magnets according to a first embodiment of the invention.

In FIG. 12 is a plan view and sectional view of a magnet according to a second embodiment of the invention.

In FIG. 13 is a plan view and sectional view of a magnet according to the first embodiment of the invention.

1 - frame; 2 - sponge; 3 - diaphragm; 4 - conductors; 5 - permanent magnets; 6 - terminal board; 7 - jumper; 8 - bar; 9 - screw; 10 - nut.

IMPLEMENTATION OF THE INVENTION

In accordance with the first embodiment of the invention, the electrodynamic emitter comprises: a frame 1 on which two pairs of jaws 2 are fixed, located on at least one side of the frame 1; diaphragm 3 fixed between jaws 2; a magnetic system in the form of permanent magnets 5 mounted on the frame 1 on at least one side; at least one terminal board 6 for connecting conductors to an electric circuit. Sponges 2 are made with the possibility of adjusting the position along the longitudinal axis of frame 1 and are fixed on the frame with screws 9 and nuts 10. Diaphragm 3 is additionally glued to strips 8 along long edges. Conductors 4 are applied to diaphragm 3 on at least one side. Permanent magnets 5 on frame 1 and conductors 4 on diaphragm 3 are located diagonally at an angle to the longitudinal axis of the frame, while the angle (β) of inclination of the permanent magnets and the angle (β1) of inclination of the conductors to the longitudinal axis of the frame are equal and are in the range from 1 to 89 degrees, and the surfaces of said jaws, between which the diaphragm is fixed, are made with a profile in the form of periodic sinusoidal waves, and when the diaphragm is tensioned, said surfaces of the jaws provide the formation of corrugations on the diaphragm. The electrodynamic emitter according to the first embodiment of the invention is used for acoustic systems (FIG. 1) and for headphones (FIG. 3). In the electrodynamic radiator for acoustic systems, two terminal boards 6 are used, made with jumpers 7 for connecting individual conductors 4 of the diaphragm 3 into a series electrical circuit (voice coil), and in the electrodynamic radiator for headphones, the voice coil is part of the design of the diaphragm 3 and jumper 7 is not required . The surface of the permanent magnets 5, facing the diaphragm 3, is made with a profile in the form of periodic sinusoidal waves, and with an angle (β2) of the inclination of the cross section of the profile relative to the longitudinal axis of the magnet, equal to the angle (β) of the inclination of the permanent magnets to the longitudinal axis of the frame and is in the range from 1 to 89 degrees.

Formula for calculating the profile (y) of jaws in the form of periodic sinusoidal waves

y=a+b cos(cx+d),

where a is the shift of the sinusoid along the Oy axis, b is the stretching of the function along the Oy axis, c is the shift of the sinusoid along the Ox axis, d is the stretching of the function along the Ox axis.

In accordance with the second embodiment of the invention, the electrodynamic emitter comprises: a frame 1 on which two pairs of jaws 2 are fixed, located on at least one side of the frame 1; a diaphragm 3 fixed between jaws 2, a magnetic system in the form of permanent magnets 5 mounted on frame 1 on at least one side; at least one terminal board 6 for connecting conductors to an electrical circuit. Sponges 2 are made with the possibility of adjusting the position and fixation along the longitudinal axis of the frame 1 and are fixed on the frame with screws 9 and nuts 10. The diaphragm 3 is additionally glued to the strips 8 along the long edges. Conductors 4 are applied to the diaphragm 3 on at least one side. The permanent magnets 5 on the frame 1 and the conductors 4 on the diaphragm 3 are located diagonally at an angle to the longitudinal axis of the frame 1, while the angle (β) of the inclination of the permanent magnets and the angle (β1) of the inclination of the conductors to the longitudinal axis of the frame are equal and are in the range from 1 to 89 degrees, and said jaws 2, between which the diaphragm 3 is fixed, are made with a comb-shaped profile, with a profile pitch P=0.5-50 mm, a profile angle α=1-179 degrees and a radius R=(0.001-0.25) ⋅P, and when the diaphragm is tensioned, said surfaces of the jaws provide the formation of corrugations on the diaphragm.

The electrodynamic emitter according to the second embodiment of the invention is used for acoustic systems (FIG. 1) and for headphones (FIG. 3). In the electrodynamic radiator for acoustic systems, two terminal boards 6 are used, made with jumpers 7 for connecting individual conductors 4 of the diaphragm 3 to a series electrical circuit (voice coil), and in the electrodynamic radiator for headphones, the voice coil is part of the headphone design and jumper 7 is not required.

The surface of the permanent magnets, facing the diaphragm, is made with a comb-shaped profile, with a profile step Р=0.5-50 mm, a profile angle α=1-179 degrees, a radius R=(0.001-0.25)⋅Р, and with an angle (β2) inclination of the cross-section of the profile, equal to the angle (β) of inclination of the permanent magnets to the longitudinal axis of the frame.

Electrodynamic emitter works as follows. The conductors 4 through the terminal board 6 is supplied with alternating electric current as a result. Permanent magnets 5 create a constant magnetic field. When the conductors 4 are excited by an alternating magnetic field, due to the interaction of this field with the magnetic field of the permanent magnets 5, the diaphragm 3 reciprocates relative to the magnetic system, which leads to sound propagation from the electrodynamic radiator.

Due to the fact that corrugations are formed on the diaphragm 3 when it is tensioned, its rigidity increases, which leads to an increase in the uniformity of the diaphragm 3 stroke over the entire area, which in turn increases the acoustic power of the emitter with the same input electric power. The same result is affected by the sign associated with areas of high and low pressure between the diaphragm 3 and the magnets 5, which are less damped with such a diaphragm profile. In addition, the corrugated shape of the diaphragm affects the increase in sound dispersion.

Also, the technical result, namely the reduction of non-linear and parasitic distortions, is affected by the location of the conductors on the diaphragm 3 and the magnetic system 5 on the frame 1. The conductor 4 on the diaphragm 3 and the magnetic system on the frame 1 are located diagonally with inclination angles β=β1 (Fig. 4 , Fig. 10) in the range from 1 to 89 degrees, where the angles of inclination β = β1 are formed between the longitudinal axis of the frame 1 and the longitudinal axes of the magnets 5 and conductors 4. With such a diagonal arrangement of conductors 4 and the magnetic system, the magnetic induction load on each subsequent the corrugation will be applied with a step offset along the longitudinal axis of the diaphragm 3, as a result of which the vibrations of adjacent corrugations will occur in more than one section and at the same time will not have the same amplitude, which leads to a decrease in parasitic resonances.

The electrodynamic emitter of Fig. 12 can be such that the permanent magnets are made with a comb-shaped profile, with a profile step Р=0.5-50 mm, a profile angle α=1-179 degrees, a radius R=(0.001…0.25)⋅Р, a profile inclination angle combs relative to the longitudinal axis of the magnet β2=β.

The electrodynamic emitter of Fig. 13 may be such that the permanent magnets are made with a profile in the form of periodic sinusoidal waves, the angle of inclination of the cross section of the profile relative to the longitudinal axis of the magnet β2=β.

In these types of magnets, the magnetic poles are equidistant from the voice coil, which further increases the acoustic power of the emitter.

The invention has been described above with reference to a specific embodiment. For specialists, other embodiments of the invention may be obvious, without changing its essence, as it is disclosed in the present description. Accordingly, the invention is to be considered limited in scope by the following claims only.

Claims (6)

1. An electrodynamic emitter containing a frame on which two pairs of jaws are fixed, located at least on one side of the frame, and made with the possibility of adjusting the position and fixing along the longitudinal axis of the frame, and between the jaws a diaphragm is fixed, at least on one side of which conductors are applied, a magnetic system located on the frame at least on one side and made of permanent magnets, at least one terminal board for connecting conductors to an electric circuit, while permanent magnets on the frame and conductors on the diaphragm are located diagonally at an angle to the longitudinal frame axis, while the angle (

) the slope of the permanent magnets and the angle (

1) the inclinations of the conductors to the longitudinal axis of the frame are equal and are in the range from 1 to 89 degrees, and the surfaces of the said jaws, between which the diaphragm is fixed, are made with a profile in the form of periodic sinusoidal waves, and when the diaphragm is tensioned, the said surfaces of the jaws provide the formation of corrugations on the diaphragm . 2. Electrodynamic emitter according to claim 1, characterized in that it contains a terminal board made with jumpers. 3. The electrodynamic emitter according to claim 1, characterized in that the surface of the permanent magnets facing the diaphragm is made with a profile in the form of periodic sinusoidal waves, and with an angle (

2) inclination of the cross section of the profile relative to the longitudinal axis of the magnet, equal to the angle (

) tilt of the permanent magnets to the longitudinal axis of the frame, and is in the range from 1 to 89 degrees. 4. An electrodynamic emitter containing a frame on which two pairs of jaws are fixed, located at least on one side of the frame and made with the possibility of adjusting the position and fixing along the longitudinal axis of the frame, and between the jaws a diaphragm is fixed, at least on one side of which conductors, a magnetic system located on the frame at least on one side and made of permanent magnets, at least one terminal board for connecting conductors to an electrical circuit, while permanent magnets on the frame and conductors on the diaphragm are located diagonally at an angle to the longitudinal axis frame, while the angle (

) the slope of the permanent magnets and the angle (

1) the inclinations of the conductors to the longitudinal axis of the frame are equal and are in the range from 1 to 89 degrees, and the said jaws, between which the diaphragm is fixed, are made with a comb-shaped profile, with a profile pitch P = 0.5-50 mm, a profile angle

= 1-179 degrees and radius R=(0.001-0.25)⋅P, moreover, when the diaphragm is tensioned, said surfaces of the sponges provide the formation of corrugations on the diaphragm. 5. Electrodynamic emitter according to claim 4, characterized in that it contains a terminal board made with jumpers. 6. An electrodynamic emitter according to claim 4, characterized in that the surface of the permanent magnets facing the diaphragm is made with a comb-shaped profile, with a profile step P=0.5-50 mm, a profile angle

= 1-179 degrees, radius R=(0.001-0.25)⋅P and angle (

2) slope of the cross section of the profile, equal to the angle (

) inclination of permanent magnets to the longitudinal axis of the frame.

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