The present invention generally relates to a symmetric dual suspension speaker structure; in particular, it relates to a speaker structure capable of improving the vertical centering ability for coil vibrations, increasing sound coil strokes, as well as lessening sound coil frictions and distortions.
A conventional electric speaker 1 is shown in
Herein the sound coil 14 moves in the magnetic gap created by the magnetic circuit system. The operational principle of the above-mentioned speaker can be roughly explained as below: transferring alternating current implicitly comprising audio signals to the sound coil 14 in order to cause the sound coil 14 to vibrate vertically in the magnetic gap, and the vibrations of the sound coil 14 bring the diaphragm 16 to move by means of the framework 15 such that the diaphragm 16 vibrates and compresses the air to reproduce the sound.
However, in practice, certain drawbacks do exist in such speakers of conventional structures. For example, the suspension system is located at the top end of the coil, so that, when the sound coil vibrates up and down in the magnetic gap, the lower end of the sound coil may easily sway and chafes the inner and outer walls of the magnetic gap thus resulting in unwanted noises.
Hence, in the trend of modern audio development, the increasing requirements for thinner profiles, lighter weights and withstanding more power or the like make the above-mentioned speakers of conventional structure designs fail to completely satisfy the demands.
Therefore, it would be an optimal solution if it is possible to provide a type of symmetric dual suspension speaker structure which allows to let the diaphragm vertically extend downwards to form a barrel component, and bond and fix the upper and lower ends of the barrel component by means of the corrugated rim and the damper, thus enabling the sound coil to bring the barrel component of the diaphragm to vibrate vertically so as to reduce the instability existing in the bonding between the conventional diaphragm and the coil framework.
A symmetric dual suspension speaker structure according to the present invention is disclosed, comprising: a basin frame, configured with an opening; a U-shaped iron, an element having a basin-wise appearance; a magnetic permeability ferrite ring, installed between the basin frame and the U-shaped iron, with the top end thereof being in contact with the bottom end of the basin frame and the center thereof having a ring opening;
a corrugated rim, including a corrugated rim outer ring and a corrugated rim inner ring, in which the corrugated rim outer ring is installed at the opening of the base frame; a diaphragm, in which the diaphragm upper surface is connected to the corrugated rim inner ring, and the peripheral edge of the diaphragm upper surface can be stretched in the vertical direction to form a barrel component; a sound coil, winding around the outer surface of the barrel component;
a damper, including a damper outer ring and a damper inner ring, in which the damper inner ring is used to connected with the barrel component of the diaphragm through the opening of the basin frame and the outer bottom edge of the ring opening in the magnetic permeability ferrite ring, while the damper outer ring is fixedly clamped between the top end of the U-shaped iron and the bottom end of the magnetic permeability ferrite ring; and a magnet, set up inside the U-shaped iron, and the top end thereof further installed with a washer thereby clamping in package the magnet in cooperation with the U-shaped iron.
More specifically, the diaphragm and the barrel component are integrally designed.
More specifically, the corrugated rim is used to bond and fix the top end of the barrel component and the damper is used to bond and fix the bottom end of the barrel component, such that the sound coil can bring the barrel component of the diaphragm to vertically vibrate.
More specifically, the outer surface of the barrel component includes multiple holes.
Other technical contents, aspects and effects in relation to the present invention can be clearly appreciated through the detailed descriptions concerning the preferred embodiments of the present invention in conjunction with the appended drawings.
Refer first to
Herein the basin frame 21 is configured with an opening 211, the U-shaped iron 22 is an element having a basin-wise appearance, and the magnetic permeability ferrite ring 23 is installed between the basin frame 21 and the U-shaped iron 22, in which the top end of the magnetic permeability ferrite ring 23 is in contact with the bottom end of the basin frame 21, and also the center of the magnetic permeability ferrite ring 23 has a ring opening 231.
In addition, the corrugated rim 24 includes a corrugated rim outer ring 241 and a corrugated rim inner ring 242, in which the corrugated rim outer ring 241 is installed at the opening 211 of the base frame 21, the upper surface of the diaphragm 25 is connected to the corrugated rim inner ring 241, and the peripheral edge around the upper surface of diaphragm 25 can be stretched in the vertical direction to form a barrel component 251 (herein the diaphragm 25 and the barrel component 251 are integrally designed); also, the sound coil 26 is winding installed around the outer surface of the barrel component.
Further, the damper 27 includes a damper outer ring 271 and a damper inner ring 272, in which, after the barrel component 251 of the diaphragm 25 penetrates through the opening 211 of the basin frame 21 and the ring opening 231 of the magnetic permeability ferrite ring 23, the outer bottom edge of the barrel component 251 can be connected with the damper inner ring 272, while the damper outer ring 271 is fixedly clamped between the top end of the U-shaped iron 22 and the bottom end of the magnetic permeability ferrite ring 23.
Moreover, the magnet 28 is set up inside the U-shaped iron 22, and the top end of the magnet 28 is further installed with a washer 29 thereby clamping in package the magnet 28 in cooperation with the U-shaped iron 22.
Seeing that the corrugated rim 24 is used to bond and fix the top end of the barrel component 251 and the damper 27 is used to bond and fix the bottom end of the barrel component 251, once the sound coil 26 placed within the magnetic gap is provided with electric power, as shown in
Also, the outer surface of the barrel component 251 includes multiple holes 2511 thereby providing an enhanced heat dissipation feature.
Next, as shown in
Subsequently, as shown in
Furthermore, as shown in
In comparison with other conventional technologies, the symmetric dual suspension speaker structure according to the present invention provides the following advantages:
(1) The peripheral edge around the upper surface of the diaphragm in the present invention may be stretched in the vertical direction to form a barrel component, and the corrugated rim and the damper respectively bond and fix the upper and lower end of the barrel component, thereby allowing the sound coil to bring the barrel component of the diaphragm to vibrate vertically so as to reduce the instability existing in the bonding between the conventional diaphragm and the coil framework.
(2) The symmetric dual suspension speaker structure according to the present invention can reduce the height and size of the speaker and provide many advantages, such as improving the vertical centering ability of the sound coil vibrations, extending the voice coil strokes, lowering voice coil frictions and distortions, simplifying the structure for convenient implementations, etc.
It should be noticed that, although the present invention has been disclosed through the detailed descriptions of the aforementioned embodiments, such illustrations are by no means used to restrict the scope of the present invention; that is, skilled ones in relevant fields of the present invention can certainly devise any applicable alternations and modifications after having comprehended the aforementioned technical characteristics and embodiments of the present invention without departing from the spirit and scope thereof. Hence, the scope of the present invention to be protected under patent laws should be delineated in accordance with the claims set forth hereunder in the present specification.
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Number | Date | Country |
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Number | Date | Country | |
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