JPH07115698A - Speaker - Google Patents

Abstract

PURPOSE:To reduce the driving force distortion of the voice coil and also to mitigate the raise of the temp. of a voice coil. CONSTITUTION:An outering 24 of a non-magnetic body with a superior electric motor-driven rate and a superior heat conductivity rate is provided at the inner peripheral surface of a york. When the voice coil 18 is vibrated by large amplitude, a magnetic circuit formed by a center pole 12 and a top plate 17 becomes vertically symmetric and the electromagnetic force of the voice coil 18 becomes symmetric, too. Heat generated in the voice coil 18 becomes easy to be absorbed respectively on the center pole 12, the top plate 17 and the surface of the outering 24 and the temp. raise of the voice coil 18 is mitigated. Therefore, the sound pressure deterioration at the time of a large input is restricted and reproduction sound with less driving force distortion is obtained.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a speaker having an improved voice coil magnetic gap.

[0002]

2. Description of the Related Art In recent years, the digital signal processing technology has advanced dramatically, so that the quality of an electric signal supplied to a speaker is greatly improved, and a speaker which reproduces the electric signal faithfully is demanded. In particular, in the low frequency range, the amplitude of the vibration system becomes large, and when the voice coil goes out of the magnetic gap, the driving force changes greatly, and the reproduced sound contains a lot of harmonic distortion. Therefore, as a measure to reduce the driving force distortion of the speaker at present, a long voice coil type speaker is used in which the winding width of the voice coil is larger than the thickness of the top plate forming the magnetic gap with the center pole.

A conventional speaker will be described below.
FIG. 9 is a cross-sectional view showing the structure of a conventional moving coil type speaker, showing the right half with respect to the central axis.
In this figure, a center pole 1 and a magnet 2 are attached to the center axis of the speaker. The magnet 2 is bonded to the lower surface of the center pole 1 and magnetized in the thickness direction. Also magnet 2
An under plate 3 is joined to the lower surface of the. The under plate 3 is a disk-shaped magnetic body and is larger than the diameter of the center pole 1 and the magnet 2.

A yoke 4 is provided on the outer peripheral portion of the under plate 3.
Are joined. The yoke 4 is a cylindrical magnetic body,
It is attached to the center pole 1 with a certain space. The top plate 5 is joined to the upper end surface of the yoke 4. The top plate 5 is a ring-shaped magnetic body, and has a central portion opened so as to have a constant gap with the cylindrical portion of the center pole 1. The gap between the inner peripheral surface of the top plate 5 and the outer peripheral surface of the center pole 1 is a magnetic gap.

A voice coil bobbin (hereinafter referred to as a bobbin) having a voice coil 6 wound around the magnetic gap.
7 is oscillatably retained in the axial direction. The voice coil 6 is wound around the axis of a cylindrical bobbin. Here, the winding width of the voice coil 6 is larger than the thickness of the top plate 5, and its mounting position is geometrically almost vertically symmetrical when viewed from the inner peripheral surface of the top plate 5.

The upper end of the bobbin 7 is connected to the diaphragm 8. The diaphragm 8 is formed into a cone shape and is vibratably attached to the frame 9 via an edge 11. The edge 11 is connected to the frame 9 in a roll shape. A damper 10 is provided between the outer peripheral portion of the bobbin 7 and the inner surface of the frame 9.
Is installed. The edge 11 elastically holds the outer peripheral portion of the diaphragm 8, and the damper 10 has a function of viscoelastically holding the bobbin 7.

In the speaker having such a structure, the magnet 2 having a large diameter is used in order to secure a sufficient magnetic flux density in the magnetic gap. Therefore, the center pole 1 has a conical shape from the upper portion of the magnet 2 toward the magnetic gap. Further, outside the magnetic gap, the lower outer peripheral portion of the center pole 1 has a conical shape,
The magnetic circuit is asymmetric with respect to the vibration direction of the bobbin 7.

[0008]

In order to keep the driving force constant at a large amplitude in the bass range, the winding width of the voice coil 6 must be larger than the amplitude amount of the voice coil 6. However, a ferrite magnet is generally used in a conventional magnetic circuit, and a large magnet 2 is required to obtain a sufficient magnetic flux density in the magnetic gap.

When the cross-sectional area of the magnet 2 in the direction perpendicular to the axis becomes large, the center pole 1 is inevitably narrowed from the magnet 2 side toward the magnetic gap side, so that the area of the outer peripheral surface of the narrowed portion is reduced. growing. There is a problem that the magnetic leakage increases between the outer peripheral surface of the conical shape and the inner peripheral surface of the yoke 4 and the lower surface of the top plate 5 and the utilization efficiency of the magnet decreases. On the other hand, in order to reduce this magnetic leakage, the outer peripheral surface of the center pole 1 that has been narrowed down and the yoke 4
Increasing the distance between the inner peripheral surface and the lower surface of the top plate 5 increases the outer size and weight of the magnetic circuit, which is not preferable for practical use as a speaker.

Further, since the magnetic circuit structure is asymmetrical in the vertical direction of the magnetic gap, the magnetic flux density distribution is also asymmetrical. In the long voice coil system, since the winding width of the voice coil 6 is larger than the thickness of the top plate 5, a considerable part of the voice coil 6 exists outside the magnetic gap, which causes asymmetry of the driving force and causes noise. Distortion will occur.

Further, in the magnetic gap, the voice coil 6
A part of the inner and outer peripheral surfaces of is adjacent to the outer peripheral surface of the center pole 1 and the inner peripheral surface of the top plate 5. Therefore, the heat generated in the voice coil 6 at this portion is easily transferred to the center pole 1 and the top plate 5. However, outside the magnetic gap, there is no adjacent surface on the inner and outer peripheral surfaces of the voice coil 6 except for the outer peripheral surface of the center pole 1, so that the heat generated in the voice coil 6 in this portion is not easily dissipated. Therefore, the voice coil 6 becomes hot when a large drive current is input.
As a result, the resistance value of the voice coil 6 becomes large, and the output corresponding to the input cannot be obtained.

The present invention has been made in view of the above conventional problems, and a constant driving force can be obtained in a wider range of low frequency band, and even in a magnetic circuit region out of the magnetic gap. An object of the present invention is to realize a speaker having a small symmetry of the magnetic flux density distribution, capable of reducing the temperature rise of the voice coil, and having a high utilization efficiency of magnets, and having a small driving force distortion.

[0013]

According to the invention of claim 1 of the present application, a cylindrical center pole is joined to the lower surface of the center pole, has a diameter smaller than that of the center pole, and is magnetized in the thickness direction. -Shaped magnet, a cylindrical underpole joined to the lower surface of the magnet and having a diameter substantially the same as the magnet, and a disc-shaped underplate joined to the lower surface of the underpole and having a larger diameter than the underpole, A cylindrical yoke coaxially joined to the upper part of the plate and having an inner diameter larger than the diameter of the center pole; an annular top plate joined to the upper end surface of the yoke and having an inner diameter larger than the diameter of the center pole; A voice coil vibratably held in a gap between the outer peripheral surface of the base plate and the inner peripheral surface of the top plate via a bobbin. The winding width of the coil in the vibration direction is at least the thickness of the top plate, a magnetic gap is formed between the outer surface of the center pole and the inner surface of the top plate, and the center pole is thicker than the top plate. It is characterized in that the distance between the upper surface of the pole and the upper surface of the top plate and the distance between the lower surface of the center pole and the lower surface of the top plate are made equal to each other.

According to a second aspect of the present invention, there is provided a cylindrical center pole, and a disk-shaped magnet which is joined to the lower surface of the center pole and has the same diameter as the center pole and is magnetized in the thickness direction. A cylindrical underpole joined to the bottom surface of the magnet and having a diameter substantially the same as the magnet, a disc-shaped underplate joined to the bottom surface of the underpole and having a larger diameter than the underpole, and coaxial to the top of the underplate Cylindrical yoke having an inner diameter larger than the diameter of the center pole, an annular top plate joined to the upper end surface of the yoke and having an inner diameter larger than the diameter of the center pole, and the outer peripheral surface and top of the center pole. A voice coil vibratably held in a space between the inner peripheral surface of the plate and a bobbin via a bobbin. The winding width is at least the thickness of the top plate, a magnetic gap is formed between the outer surface of the center pole and the inner surface of the top plate, and the thickness of the center pole is larger than the thickness of the top plate. The distance between the upper surfaces of the plates and the distance between the lower surface of the center pole and the lower surface of the top plate are made equal to each other.

According to the third aspect of the present invention, the inner diameter of the portion attached to the inner peripheral surface of the yoke, facing the outer peripheral surface of the center pole, and adjacent to the lower surface of the top plate is the same as the inner diameter of the top plate. It is characterized in that a substantially cylindrical outer ring is formed so that at least the inner diameter of the portion facing the outer peripheral surfaces of the magnet and the under pole is larger than the inner diameter of the top plate.

According to the invention of claim 4 of the present application, the inner diameter of the portion which is attached to the inner peripheral surface of the yoke, faces the outer peripheral surface of the center pole, and is located at the height from the lower surface of the top plate to the lower surface of the center pole is The inner diameter of the top plate is the same as the inner diameter of the top plate, and the inner diameter of the portion facing the outer surface of the magnet and the under pole is larger than the inner diameter of the top plate. To do.

According to the invention of claim 5 of the present application, the inner diameter of a portion which is attached to the inner peripheral surface of the yoke and faces the outer peripheral surface of the center pole and is close to the lower surface of the top plate is the same as the inner diameter of the top plate. The inner diameter of the portion of the magnet and the underpole facing the outer peripheral surface is provided with a substantially cylindrical outer ring formed so as to gradually increase from the inner diameter of the top plate toward the underplate. To do.

According to the invention of claim 7 of the present application, the inner diameter of a portion which is attached to the upper surface of the top plate and faces the outer peripheral surface of the center pole and is close to the upper surface of the top plate is the same as the inner diameter of the top plate, It is characterized in that a substantially ring-shaped top ring formed so that the inner diameter of a portion separated from the upper surface of the top plate by a certain distance or more is larger than the inner diameter of the top plate.

According to the invention of claim 8 of the present application, the inner diameter of a portion which is attached to the upper surface of the top plate and faces the outer peripheral surface of the center pole and is located at a height between the upper surface of the top plate and the upper surface of the center pole is The inner diameter of the portion that is the same as the inner diameter of the top plate and that is located above the top surface of the center pole is provided with a substantially annular top ring that is formed to be larger than the inner diameter of the top plate. Is.

According to the invention of claim 9 of the present application, the inner diameter of the portion which is attached to the upper surface of the top plate and faces the outer peripheral surface of the center pole and which is close to the upper surface of the top plate is the same as the inner diameter of the top plate. The inner diameter of a portion separated from the upper surface of the top plate by a certain distance or more is provided with a substantially annular top ring formed to be gradually larger than the inner diameter of the top plate as the distance from the top plate increases. It is a thing.

According to the invention of claim 11 of the present application, the outer diameter of the portion provided on the outer peripheral surfaces of the magnet and the under pole and adjacent to the outer peripheral surface of the center pole is the same as the outer diameter of the center pole. The outer diameter of the portion separated from the lower surface by a certain distance or more is provided with a substantially cylindrical inner ring formed so as to be smaller than the outer diameter of the center pole.

According to a twelfth aspect of the present invention, the outer diameter of the portion provided on the outer peripheral surfaces of the magnet and the under pole and adjacent to the outer peripheral surface of the center pole is the same as the outer diameter of the center pole. The outer diameter of a portion separated from the lower surface by a certain distance or more is characterized by providing a substantially cylindrical inner ring formed so as to become gradually smaller than the outer diameter of the center pole as it approaches the under plate. .

[0023]

The operation according to claim 1 or 2 of the present application having such characteristics
According to the invention, when the voice coil is driven in the low tone region and a constant sound pressure is output, the vibration amplitude of the voice coil becomes excessive as compared with the middle tone region. At this time, the vibration range of the voice coil protrudes vertically from the magnetic gap formed by the center pole and the top plate. Therefore, if the distance between the upper surface of the center pole and the upper surface of the top plate and the distance between the lower surface of the center pole and the lower surface of the top plate are made equal to each other, the area where the magnetic flux density distribution deviates from the magnetic gap when viewed from the neutral point of vibration. Also becomes symmetrical vertically. Therefore, the electromagnetic force of the voice coil becomes symmetric regardless of its vibration amplitude, and even when placed at a large amplitude, the distortion of sound due to the asymmetry of the magnetic flux density distribution does not occur.

According to the invention of claim 3, 4 or 5 of the present application, in addition to the function of the invention of claim 1 or 2, the outer ring is formed on the inner peripheral surface of the yoke, so that the voice coil is provided. The generated heat is easily absorbed by the outer peripheral surface of the center pole and the inner peripheral surface of the outer ring, and the temperature rise of the voice coil is reduced. The outer ring also has the effect of reducing the distortion of the voice coil current.

According to the invention of claim 7, 8 or 9 of the present application, in addition to the action of the invention of claim 1 or 2, since the top ring is formed on the upper surface of the top plate, it is generated in the voice coil. The heat is easily absorbed by the outer peripheral surface of the center pole and the inner peripheral surface of the top ring, and the temperature rise of the voice coil is reduced. The top ring also has the effect of reducing the distortion of the voice coil current.

Further, according to the invention of claim 11 or 12,
In addition to the effect of the invention of claim 1 or 2, since the inner ring is formed on the outer peripheral surfaces of the magnet and the under pole, the heat generated in the voice coil is easily absorbed by the outer peripheral surfaces of the center pole and the under pole. Therefore, the temperature rise of the voice coil is reduced. Further, the inner ring also has the effect of reducing the distortion of the voice coil current.

[0027]

[Embodiment] FIG. 1 shows a speaker according to a first embodiment of the present invention.
Will be explained. FIG. 1 is a cross-sectional view showing the structure of the loudspeaker of the first embodiment, showing the right half with respect to the central axis (the same applies hereinafter). In this figure, a center pole 12, a magnet 13, and an under pole 14 are attached to the center axis of the speaker. The center pole 12 is a disk-shaped magnetic body. The magnet 13 has a disk shape and is joined to the lower surface of the center pole 12, the diameter of which is smaller than that of the center pole 12, and the magnet 13 is magnetized in the thickness direction. An under pole 14 having the same diameter as that of the magnet 13 is joined to the lower surface of the magnet 13. An under plate 15 is joined to the lower surface of the under pole 14. The under plate 15 is a disk-shaped magnetic body, and its diameter is larger than that of the center pole 12 and much larger than that of the magnet 13.

A yoke 16 is joined to the outer peripheral portion of the under plate 15. The yoke 16 is a cylindrical magnetic body, and is attached to the magnet 13 and the under pole 14 with a constant space therebetween. The top plate 17 is joined to the upper end surface of the yoke 16. The top plate 17 is a hollow disk-shaped magnetic body having a thickness of Tp, and is attached so that the magnetic gap is vertically symmetrical with respect to the thickness direction of the center pole 12. The constant air gap formed by the inner peripheral surface of the top plate 17 and the outer peripheral surface of the center pole 12 is a magnetic gap.

A bobbin 19 around which a voice coil 18 is wound is held in the magnetic gap so as to be axially vibrable, as in the conventional example. The winding width Tv of the voice coil 18 is larger than the thickness of the top plate 17 and about the same as the thickness of the center pole 12, and the mounting position is vertically symmetrical when viewed from the inner peripheral surface of the top plate 17. Bobbin 1
A vibration plate 20 is connected to the upper end of 9. Diaphragm 2
Reference numeral 0 denotes a cone-shaped diaphragm, which is oscillatably attached to the frame 21 via an edge 23. A damper 22 is attached to the outer peripheral portion of the bobbin 19 and the inner surface of the frame 21.

In the loudspeaker of the first embodiment having such a structure, most of the magnetic flux supplied from the magnet 13 is
Although passing through the air gap formed by the outer peripheral surface of the center pole 12 and the inner peripheral surface of the top plate 17, the other magnetic flux is widely distributed around the upper and lower portions of the magnetic gap.

In order to reduce the driving force distortion in the long voice coil system, the voice coil 18 may be present in the magnetic gap with respect to the desired maximum amplitude amount of the diaphragm 20. That is, when the voice coil 18 moves upward from the neutral point of vibration, if the moving distance is within (Tv-Tp) / 2, the volume existing in the magnetic gap of the voice coil 18 becomes constant. On the contrary, when the voice coil 18 moves downward, if the moving distance is within-(Tv-Tp) / 2, the volume existing in the magnetic gap of the voice coil 18 becomes constant. Therefore, the amount of amplitude is ± (Tv-Tp) /
Within 2 the driving force of the voice coil 18 becomes almost constant.

The thickness of the center pole 12 is made larger than that of the top plate 17, and the distance between the upper surface of the top plate 17 and the upper surface of the center pole 12 and the distance between the lower surface of the top plate 17 and the lower surface of the center pole 12 are set. If they are equal, the magnetic circuit structure in the vertical direction becomes symmetrical with respect to the space including the upper and lower parts of the magnetic gap,
The magnetic flux density distribution outside the magnetic gap is also symmetrical. In this way, the driving force is not distorted due to the asymmetry of the magnetic flux density distribution outside the magnetic gap as in the conventional case.

In recent years, high-energy product magnets containing rare earth elements have become widespread and have been used in magnetic circuits for speakers. If such a high energy product magnet is used, the magnet 1
Since the diameter of 3 can be set to be equal to or smaller than the diameter of the center pole 12, it is not necessary to narrow the center pole 12 from the magnet 13 side to the magnetic gap side as in the conventional case. Therefore, not only can the outer size of the magnetic circuit in the narrowed-down portion be reduced, but also the underpole 14 having the same diameter as the magnet 13 is provided on the lower surface of the magnet 13 so that the position of the magnet 13 is closer to the magnetic gap side. The outer peripheral area of the center pole 12 below the magnetic gap can be reduced. Therefore, the under plate 1 that magnetically opposes this outer peripheral surface
5, the inner peripheral surface of the yoke 16 and the top plate 1
Since the magnetic leakage between the lower surface of the magnet 7 and the lower surface of the magnet 7 can be reduced, the utilization efficiency of the magnet is increased.

When the magnetic circuit has such a structure, the position of the upper surface of the center pole 12 is higher than the position of the upper surface of the top plate 17 as compared with the conventional magnetic circuit, so that the inner peripheral surface of the voice coil 18 is increased. Center pole 1 as a whole
It will be adjacent to the outer peripheral surface of No. 2. Therefore, the heat generated in the voice coil 18 is easily absorbed by the center pole 12 having a high heat transfer rate by radiation or convection, and the temperature rise of the voice coil 18 is reduced. Therefore, even when a large drive current is input, the resistance value of the voice coil 18 does not increase unlike the conventional example, and the decrease in the sound pressure output level is suppressed.

Next, a speaker according to the second embodiment of the present invention will be described with reference to FIG. The same parts as those in the first embodiment are designated by the same reference numerals and the description thereof will be omitted. Here, what is greatly different from the first embodiment is that the diameters of the magnet 13a and the under pole 14a are the same as the diameter of the center pole 12a. If the magnet 13a having the same size as that of the first embodiment is used, the center pole 12a has a smaller diameter than the center pole 12 of FIG. 1, so that the outer size of the magnetic circuit can be further reduced. Become.

When the voice coil 18 vibrates and is located below the neutral point of the vibration, the voice coil 18
The inner peripheral surface of is adjacent to the outer peripheral surfaces of the center pole 12a, the magnet 13a and the under pole 14a. Therefore, the heat generated in the voice coil 18 is transferred to these outer peripheral surfaces earlier, and the temperature rise of the voice coil 18 can be suppressed more than in the first embodiment.

Next, a speaker according to the third embodiment of the present invention will be described with reference to FIG. The same parts as those in the first embodiment are designated by the same reference numerals and the description thereof will be omitted. In this embodiment, the outer ring 24 is newly provided on the inner peripheral portion of the yoke 16. The configuration of the other parts is the same as the speaker of the first embodiment. The outer ring 24 is the yoke 1
6 is a member formed in a cylindrical shape so as to be in close contact with the inner peripheral surface of 6, and its inner diameter is small so that its upper end portion is the same as the inner peripheral surface of the top plate 17. The outer ring 24 is made of a non-magnetic material having higher electrical conductivity and higher thermal conductivity than at least the yoke 16 and the top plate 17. In FIG. 3, the thickness of the upper end portion of the outer ring 24 is made higher than that of the lower surface of the center pole 12.
You may make it the same height as the lower surface of the center pole 12.

The operation of this embodiment is similar to that of the first and second embodiments, but the inner diameter of the outer ring 24 is made equal to the inner diameter of the top plate 17 at the portion facing the center pole 12, so that the magnetic gap The outer peripheral surface of the voice coil 18 is adjacent to the inner peripheral surface of the outer ring 24 in the lower part of the. Therefore, the heat generated in the voice coil 18 is transferred not only to the outer peripheral surface of the center pole 12 but also to the inner peripheral surface of the outer ring 24, and the temperature rise of the voice coil 18 is further suppressed.

If the inner diameter of the outer ring 24 is increased on the under plate 15 side, when the bobbin 19 rolls at a large amplitude, the voice coil 18
Is located below the neutral point of vibration, it becomes difficult for the outer peripheral surface to contact the lower inner peripheral surface of the outer ring 24,
It is possible to prevent the generation of abnormal sound. On the other hand, the induced current generated in the center pole 12, the top plate 17, etc. by the magnetic field generated by the voice coil 18 itself flows in the outer ring 24 having high electric conductivity, so that the distortion of the drive current flowing in the voice coil 18 is distorted. Produces a reducing effect.

When the area equal to the inner diameter of the top plate 17 of the outer ring 24 is set to the height of the position of the lower surface of the center pole 12, the inner peripheral surface of the voice coil 18 and the center pole 12 are generated when rolling occurs. The contact with the outer peripheral surface and the contact with the outer peripheral surface of the voice coil 18 and the inner peripheral surface of the outer ring 24 occur almost at the same time. Therefore, only one of the outer peripheral surface of the center pole 12 and the inner peripheral surface of the outer ring 24 does not come into contact with the voice coil 18. Voice coil 18
The inner peripheral surface of the center pole 12 and the outer peripheral surface of the center pole 12, and the outer peripheral surface of the voice coil 18 and the inner peripheral surface of the outer ring 24 are adjacent to each other in a large area, so that the heat generated in the voice coil 18 can be transferred more quickly. Although the outer ring 24 shown in FIG. 3 is provided in the speaker having the same structure as that of the first embodiment, the yoke 1 in the speaker of the second embodiment is used.
Even if it is provided in No. 6, the same effect can be obtained.

Next, a speaker according to the fourth embodiment of the present invention will be described with reference to FIG. The same parts as those in the first embodiment are designated by the same reference numerals and the description thereof will be omitted. In this embodiment, an outer ring 24a having a shape different from that of the third embodiment is provided on the inner peripheral portion of the yoke 16. The configuration of the other parts is the same as the speaker of the first embodiment. In this embodiment, the outer ring 24a is formed so that the inner diameter thereof gradually increases from the top plate 17 side toward the under plate 15 side.

The operation of this embodiment is also the same as that of the third embodiment, but by providing an inclined portion in which the inner diameter of the upper part of the outer ring 24a gradually increases, the inner peripheral surface of the outer ring 24a is formed below the magnetic gap. The outer peripheral surface of the voice coil 18 approaches the inner peripheral surface of the outer ring 24 by an amount corresponding to the inclined area, so that the heat generated in the voice coil 18 is easily transferred.

Next, a speaker according to the fifth embodiment of the present invention will be described with reference to FIG. The same parts as those in the first embodiment are designated by the same reference numerals and the description thereof will be omitted. In this embodiment, the top ring 25 is attached to the upper surface of the top plate 17. The top ring 25 is a stepped annular member, the inner peripheral lower part thereof is formed so as to be flush with the inner peripheral surface of the top plate 17, and the upper part has a large inner diameter. The top ring 25, including the yoke 16 and the top plate 17, is made of a non-magnetic material having high electrical conductivity and high thermal conductivity. Although the thickness of the lower portion of the top ring 25 is set to be equal to or smaller than the upper surface of the center pole 12 in FIG. 5, it may be set to match the upper surface of the center pole 12.

The operation of this embodiment is also similar to that of the first and second embodiments, except that the top ring 25 is newly provided and
If the inner diameter of the voice coil 1 is made equal to that of the top plate 17 on the lower surface side, the voice coil 1 is formed above the magnetic gap.
The outer peripheral surface of 8 is adjacent to the inner peripheral surface of the top ring 25. Therefore, the heat generated in the voice coil 18 is also transferred to the inner peripheral surface of the top ring 25, and the temperature rise of the voice coil 18 is suppressed.

Further, by making the inner diameter of the top ring 25 larger on the upper surface side than on the top plate 17 side, even if rolling occurs at a large amplitude, the voice coil 18 moves above the neutral point of vibration. When located,
It becomes difficult for the outer peripheral surface of the voice coil 18 to come into contact with the inner peripheral surface of the top ring 25, and abnormal noise does not occur. Further, the top ring 25 has an effect of reducing current distortion of the voice coil 18.

The top plate 1 of the top ring 25
If the area equal to the inner diameter of 7 is from the height of the position of the upper surface of the top plate 17 to the height of the position of the upper surface of the center pole 12, the inner peripheral surface of the voice coil 18 and the center pole 12 will be generated when rolling occurs. Contact with the outer peripheral surface, and the outer peripheral surface of the voice coil 18 and the top ring 25
The contact with the inner peripheral surface of the metal occurs almost at the same time. Therefore, only one of the outer peripheral surface of the center pole 12 and the inner peripheral surface of the top ring 25 does not come into contact with the voice coil 18, and the inner peripheral surface of the voice coil 18 and the outer peripheral surface of the center pole 12 as well as the voice coil. The adjacent area between the outer peripheral surface of 18 and the inner peripheral surface of the top ring 25 increases. Therefore, the heat generated in the voice coil 18 is easily transferred. Note that FIG. 5 shows the top ring 2 in addition to the speaker of the first embodiment.
5 is attached, the same effect can be obtained by attaching the top ring 25 to the top plate 17 of the speaker according to the second embodiment.

Next, a speaker according to the sixth embodiment of the present invention will be described with reference to FIG. The same parts as those in the first embodiment are designated by the same reference numerals and the description thereof will be omitted. In this embodiment, a top ring 25a having a shape different from that of the fifth embodiment is attached to the upper surface of the top plate 17. The top ring 25a is a substantially annular member, the lower surface of the inner peripheral portion of which is formed to be the same as the inner peripheral surface of the top plate 17, and the upper surface of the inner peripheral portion is shaped like a mortar. The top ring 25a is made of a material that is non-magnetic, has high electrical conductivity, and has high thermal conductivity.

The operation of this embodiment is also similar to that of the fifth embodiment, but by providing the top ring 25a with an inclined portion whose inner diameter gradually increases, the inner peripheral surface of the top ring 25a is inclined above the magnetic gap. The outer peripheral surface of the voice coil 18 approaches the inner peripheral surface of the top ring 25a by the area. Therefore, the heat generated in the voice coil 18 is easily transferred.

Next, a speaker in the seventh embodiment of the present invention will be described with reference to FIG. The same parts as those in the first embodiment are designated by the same reference numerals and the description thereof will be omitted. In this embodiment, the inner ring 26 is attached to the outer peripheral surfaces of the magnet 13 and the under pole 14. The inner ring 26 is a cylindrical member, the upper surface of its outer peripheral portion is formed to be the same as the outer peripheral surface of the center pole 12, and the lower surface of the outer peripheral portion has a smaller outer diameter. The inner ring 25 is made of a non-magnetic material having higher electrical conductivity and higher thermal conductivity than the center pole 12 and the under pole 14.

The operation of this embodiment is similar to that of the first embodiment, but the inner ring 26 is newly provided and its outer diameter is made equal to the outer diameter of the center pole 12 on the upper side. When it vibrates greatly and is positioned below the neutral point of the vibration, the inner peripheral surface of the voice coil 18 is adjacent to the outer peripheral surface of the inner ring 26. Therefore, the heat generated in the voice coil 18 is also transferred to the outer peripheral surface of the inner ring 26, and the temperature rise of the voice coil 18 is suppressed.

Further, by making the outer diameter of the inner ring 26 smaller on the under plate 15 side, rolling occurs at the time of large amplitude, and when the voice coil 18 is positioned below the neutral point of vibration, the voice coil 18 Since the inner peripheral surface of the inner ring does not contact the lower outer peripheral surface of the inner ring 26, it is possible to prevent abnormal noise from being generated. Further, the inner ring 26 also has an effect of reducing current distortion of the voice coil 18.

Next, a speaker according to the eighth embodiment of the present invention will be described with reference to FIG. The same parts as those in the first embodiment are designated by the same reference numerals and the description thereof will be omitted. In this embodiment, an inner ring 26a having a shape different from that of the seventh embodiment is attached to the outer peripheral surfaces of the magnet 13 and the under pole 14.
The inner ring 26a is a substantially cylindrical member, the upper surface of the outer peripheral portion thereof is formed to be the same as the outer peripheral surface of the center pole 12, the outer diameter of the lower surface of the outer peripheral portion is gradually reduced, and the lower portion is the outer portion. The diameter is constant. The inner ring 26a is made of a material that is non-magnetic, has high electrical conductivity, and has high thermal conductivity.

The operation of this embodiment is similar to that of the seventh embodiment, but the inclined portion of the outer diameter of the inner ring 26a is gradually reduced so that the outer peripheral surface of the inner ring 26a is inclined below the magnetic gap. Voice coil 1 only for area
Since the inner peripheral surface of 8 approaches the outer peripheral surface of the inner ring 26a, the heat generated in the voice coil 18 is easily transferred.

In each of the above embodiments, the outer ring 2
4, 24a, the top rings 25, 25a, and the inner rings 26, 26a are used individually, but if these are used in combination, the effect of alleviating the temperature rise of the voice coil 18 and reducing the current distortion can be further enhanced. .

[0055]

According to the first and second aspects of the present invention, a uniform magnetic flux density distribution can be obtained in the air gap where the top plate and the center pole face each other, and the inside of the magnetic gap can be further improved. Even in the deviated region, the symmetry of the magnetic flux density distribution in the axial direction of the center pole is improved. Therefore, in the long voice coil type speaker, even if the voice coil is driven with a large amplitude, the driving force distortion due to the asymmetry of the magnetic flux density distribution does not increase.

According to the invention of claims 3 to 13 of the present application,
In addition to the effect of the invention of claim 1, by providing any one of the outer ring, the top ring and the inner ring in the portion adjacent to the voice coil, the heat generated in the voice coil is absorbed faster, so that the temperature rise. Can be reduced. Further, current distortion of the voice coil is reduced, and a speaker equipped with a small magnetic circuit with high utilization efficiency of magnetic flux can be realized.

[Brief description of drawings]

FIG. 1 is a sectional view showing a right half of a central axis of a speaker according to a first embodiment of the present invention.

FIG. 2 is a cross-sectional view showing the right half of the central axis of the speaker according to the second embodiment of the present invention.

FIG. 3 is a cross-sectional view showing the right half of the central axis of the speaker of the third embodiment of the present invention.

FIG. 4 is a cross-sectional view showing the right half of the central axis of a speaker according to a fourth embodiment of the present invention.

FIG. 5 is a sectional view showing the right half of the central axis of the speaker of the fifth embodiment of the present invention.

FIG. 6 is a sectional view showing the right half of the central axis of the speaker of the sixth embodiment of the present invention.

FIG. 7 is a sectional view showing the right half of the central axis of the speaker of the seventh embodiment of the present invention.

FIG. 8 is a sectional view showing the right half of the central axis of the speaker of the eighth embodiment of the present invention.

FIG. 9 is a cross-sectional view showing the right half of the central axis of a conventional speaker.

[Explanation of symbols]

 12, 12a Center pole 13, 13a Magnet 14, 14a Under pole 15 Under plate 16 Yoke 17 Top plate 18 Voice coil 19 Voice coil bobbin 20 Vibration plate 21 Frame 22 Damper 23 Edge 24, 24a Outer ring 25, 25a Top ring 26, 26a Inner ring

Claims (13)

[Claims] 1. A cylindrical center pole, a disc-shaped magnet joined to the lower surface of the center pole, having a diameter smaller than that of the center pole, and magnetized in the thickness direction, and joined to the lower surface of the magnet. A cylindrical underpole having a diameter substantially the same as that of the magnet, a disc-shaped underplate joined to the lower surface of the underpole and having a larger diameter than the underpole, and coaxially with an upper portion of the underplate. A cylindrical yoke having an inner diameter larger than the diameter of the center pole, an annular top plate joined to the upper end surface of the yoke and having an inner diameter larger than the diameter of the center pole, and an outer periphery of the center pole A voice coil vibratably held in the gap between the surface and the inner peripheral surface of the top plate via a bobbin, The winding width of the voice coil in the vibration direction is at least not less than the thickness of the top plate, a magnetic gap is formed between the outer peripheral surface of the center pole and the inner peripheral surface of the top plate, and the thickness of the center pole is A speaker having a thickness greater than that of the top plate, and a distance between an upper surface of the center pole and an upper surface of the top plate and a distance between a lower surface of the center pole and a lower surface of the top plate are equal to each other. . 2. A cylindrical center pole, a disk-shaped magnet that is joined to the lower surface of the center pole, has the same diameter as the center pole, and is magnetized in the thickness direction, and to the lower surface of the magnet. A cylindrical underpole that is joined and has a diameter substantially the same as that of the magnet; a disc-shaped underplate that is joined to the lower surface of the underpole and that has a larger diameter than the underpole; A cylindrical yoke having an inner diameter larger than the diameter of the center pole, an annular top plate joined to the upper end surface of the yoke and having an inner diameter larger than the diameter of the center pole, A voice coil vibratably held in a gap between an outer peripheral surface and an inner peripheral surface of the top plate via a bobbin. The winding width of the voice coil in the vibration direction is at least the thickness of the top plate, a magnetic gap is formed between the outer peripheral surface of the center pole and the inner peripheral surface of the top plate, and the thickness of the center pole is A speaker having a thickness greater than that of the top plate, and a distance between an upper surface of the center pole and an upper surface of the top plate and a distance between a lower surface of the center pole and a lower surface of the top plate are equal to each other. . 3. The inner diameter of a portion that is attached to the inner peripheral surface of the yoke, faces the outer peripheral surface of the center pole, and is close to the lower surface of the top plate, is the same as the inner diameter of the top plate, The substantially cylindrical outer ring formed so that the inner diameter of the portion facing the outer peripheral surface of the magnet and the underpole is larger than the inner diameter of the top plate. Speaker. 4. The inner diameter of a portion, which is attached to the inner peripheral surface of the yoke, faces the outer peripheral surface of the center pole, and is located at a height from the lower surface of the top plate to the lower surface of the center pole, is the top. The inner diameter of the plate is the same as the inner diameter of the plate, and the inner diameter of the portion facing the outer peripheral surfaces of the magnet and the under pole is provided with a substantially cylindrical outer ring formed to be larger than the inner diameter of the top plate. The speaker according to claim 1 or 2. 5. The inner diameter of a portion, which is attached to the inner peripheral surface of the yoke, faces the outer peripheral surface of the center pole and is close to the lower surface of the top plate, is the same as the inner diameter of the top plate, And an inner ring of a portion facing the outer peripheral surface of the under pole is provided with a substantially cylindrical outer ring formed to be gradually larger than the inner diameter of the top plate as it approaches the under plate. The speaker according to claim 1 or 2. 6. The outer ring is made of a non-magnetic material having higher electrical conductivity and thermal conductivity than the top plate and the yoke, and the outer ring is made of a non-magnetic material. The speaker according to the item. 7. The inner diameter of a portion that is attached to the upper surface of the top plate and faces the outer peripheral surface of the center pole and is close to the upper surface of the top plate is the same as the inner diameter of the top plate. The speaker according to claim 1 or 2, further comprising: a substantially annular top ring formed so that an inner diameter of a portion separated from the upper surface of the top plate by a predetermined distance or more is larger than the inner diameter of the top plate. 8. An inner diameter of a portion which is attached to an upper surface of the top plate, faces an outer peripheral surface of the center pole, and is located at a height between the upper surface of the top plate and the upper surface of the center pole has an inner diameter of the top plate. The inner diameter of the portion located above the upper surface of the center pole is the same as the inner diameter of the center pole, and a substantially annular top ring is formed so as to be larger than the inner diameter of the top plate. The speaker according to Item 1 or 2. 9. The inner diameter of a portion, which is attached to the upper surface of the top plate and faces the outer peripheral surface of the center pole, and is close to the upper surface of the top plate, is the same as the inner diameter of the top plate, The inner diameter of a portion separated from the upper surface of the top plate by a certain distance or more is provided with a substantially annular top ring formed to be gradually larger than the inner diameter of the top plate as the distance from the top plate increases. The speaker according to claim 1 or 2. 10. The top ring according to claim 7, wherein the top ring is made of a non-magnetic material having higher electrical conductivity and thermal conductivity than the top plate and the yoke. The speaker according to the item. 11. An outer diameter of a portion which is provided on outer peripheral surfaces of the magnet and the under pole and which is close to an outer peripheral surface of the center pole,
The outer diameter of the center pole is the same as that of the center pole, and the outer diameter of a portion separated from the lower surface of the center pole by a certain distance is smaller than the outer diameter of the center pole. The speaker according to claim 1, wherein the speaker is a speaker. 12. The outer diameter of a portion which is provided on the outer peripheral surfaces of the magnet and the under pole and is close to the outer peripheral surface of the center pole,
The outer diameter of the center pole is the same as the outer diameter of the center pole, and the outer diameter of a portion separated from the lower surface of the center pole by a certain distance or more is gradually smaller than the outer diameter of the center pole as it approaches the under plate. The speaker according to claim 1, further comprising a substantially cylindrical inner ring. 13. The speaker according to claim 11, wherein the inner ring is made of a non-magnetic material having higher electric conductivity and thermal conductivity than the center pole and the under pole.