JP3978904B2 - Speaker device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a speaker device. More specifically, the present invention relates to a technique that enables easy positioning of the primary coil and improves the attachment strength of the primary coil.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, electromagnetic induction speakers are known, and there are so-called inner-magnet electromagnetic induction speakers in which magnets are arranged on the inside and so-called outer-magnet electromagnetic induction speakers in which magnets are arranged on the outside.
[0003]
As shown in FIG. 6, the internal-magnet electromagnetic induction speaker 100 includes a yoke 110, a magnet 120, and a diaphragm 130.
[0004]
The yoke 110 is integrally formed with a disc-shaped bottom surface portion 111, a peripheral wall portion 112 projecting upward from the periphery of the bottom surface portion 111, and an annular annular plate 113 provided on the upper edge of the peripheral wall portion 112. Made up. A columnar magnet 120 is attached to the center of the upper surface of the bottom surface portion 111. Further, the yoke 110 has an upper surface of the annular plate 113 attached to the frame 140.
[0005]
A disc-shaped center plate 150 is attached to the upper surface of the magnet 120, and the center plate 150 is disposed in the center hole 113 a of the annular plate 113. A gap formed between the annular plate 113 and the center plate 150 is formed as a magnetic gap 160.
[0006]
The diaphragm 130 is formed by integrally forming a substantially hemispherical dome portion 131 located at the center portion and an edge portion 132 having a small circular arc shape in a cross-sectional shape continuously provided on the outer periphery of the dome portion 131. The outer end portion of the edge portion 132 is attached to the upper surface of the frame 140. The upper end portion of the cylindrical bobbin 170 is fixed to the outer peripheral edge of the dome portion 131 by bonding or the like.
[0007]
A one-turn secondary coil 171 is wound around and fixed to a portion near the lower end of the bobbin 170, and the secondary coil 171 is positioned in a magnetic gap 160 formed between the annular plate 113 and the center plate 150. Has been.
[0008]
An outer peripheral side primary coil 180 and an inner peripheral side primary coil 190 are arranged in the magnetic gap 160 so as to face each other with the secondary coil 171 interposed therebetween. The outer peripheral side primary coil 180 is fixed to the inner peripheral surface of the annular plate 113 of the yoke 110, and the inner peripheral side primary coil 190 is fixed to the outer peripheral surface of the center plate 150, the outer peripheral side primary coil 180 and the inner peripheral side 1. The next coil 190 is connected in series. One end of each of the outer peripheral side primary coil 180 and the inner peripheral side primary coil 190 is connected to signal lead lines 180a and 190a, respectively.
[0009]
Thus, when a current is supplied to the outer peripheral side primary coil 180 and the inner peripheral side primary coil 190, an induced current flows through the secondary coil 171 disposed in the magnetic gap 160, and the diaphragm 130 is moved by the Lorentz force. The sound is generated by vibration.
[0010]
As shown in FIG. 7, the outer-magnet electromagnetic induction speaker 200 includes a yoke 210, a magnet 220, and a diaphragm 230.
[0011]
The yoke 210 is formed by integrally forming a bottom surface portion 211 having a disc shape and a center pole 212 protruding upward from the center portion of the bottom surface portion 211. A cylindrical shape is formed on the outer end of the upper surface of the bottom surface portion 211. A magnet 220 is attached.
[0012]
An annular plate 240 is attached to the upper surface of the magnet 220, and the annular plate 240 is positioned corresponding to the upper end of the center pole 212. The upper surface of the outer end portion of the annular plate 240 is attached to the frame 250. Further, a gap formed between the annular plate 240 and the center pole 212 is formed as a magnetic gap 260.
[0013]
The diaphragm 230 has a central portion 231 having an arc shape with a cross-sectional shape located at the central portion, an inclined portion 232 continuously provided on the outer periphery of the central portion 231, and displaced upward as going outward, and the inclined portion 232. An outer edge of the frame 250 is formed by an edge portion 233 that is continuous with the outer periphery and a fixing portion 234 that is provided continuously on the outer periphery of the central portion 231 and protrudes in the opposite direction to the inclined portion 232. Is attached. And the upper end part of the cylindrical bobbin 270 is being fixed to the front-end | tip part of the fixing | fixed part 234 by adhesion | attachment etc.
[0014]
A one-turn secondary coil 271 is wound around and fixed to a portion near the lower end of the bobbin 270, and the secondary coil 271 is positioned in a magnetic gap 260 formed between the annular plate 240 and the center pole 212. Has been.
[0015]
An outer peripheral side primary coil 280 and an inner peripheral side primary coil 290 are arranged in the magnetic gap 260 so as to face each other with the secondary coil 271 interposed therebetween. The outer peripheral side primary coil 280 is fixed to the inner peripheral surface of the annular plate 240, and the inner peripheral side primary coil 290 is fixed to the upper end portion of the outer peripheral surface of the center pole 212, and the outer peripheral side primary coil 280 and the inner peripheral side 1 The next coil 290 is connected in series. One end of each of the outer peripheral side primary coil 280 and the inner peripheral side primary coil 290 is connected to signal lead lines 280a and 290a, respectively.
[0016]
Thus, when a current is supplied to the outer peripheral side primary coil 280 and the inner peripheral side primary coil 290, an induced current flows through the secondary coil 271 disposed in the magnetic gap 260, and the diaphragm 230 is moved by the Lorentz force. The sound is generated by vibration.
[0017]
[Problems to be solved by the invention]
By the way, when the primary coils 180, 190, 280, and 290 are fixed to the annular plates 113 and 240, the center plate 150, or the center pole 212, there are generally the following two methods.
[0018]
(1) The primary coils 180, 190, 280, 290 are wound around the outer peripheral surface of a cylindrical bobbin (not shown) and fixed to the annular plates 113, 240 or the center plate 150 or the center pole 212. And fix it by bonding or the like.
[0019]
(2) The primary coils 180, 190, 280, and 290 are wound without using the bobbin (formed as a bobbin-less coil) or fitted into the annular plates 113 and 240, or the center plate 150 or the center pole 212. It is fitted and fixed by adhesion or the like.
[0020]
In general, the above-described bobbin and primary coils 180, 190, 280, and 290 that are internally fitted to the annular plates 113 and 240 or externally fitted to the center plate 150 or the center pole 212 are very thin and have low mechanical strength. The bobbin and primary coils 180, 190, 280, 290 are fitted to the annular plates 113, 240, the center plate 150, the center pole 212, It is necessary to prevent contact and damage.
[0021]
Accordingly, in any of the above-described methods, the primary coils 180 and 280 are wound in advance, and the outer diameter thereof is made slightly smaller than the inner diameters of the annular plates 113 and 240 so that the primary coils 180 and 280 are wound. And the annular plates 113 and 240 are filled with an adhesive and fixed, and the inner diameter thereof is slightly larger than the outer diameter of the center plate 150 or the center pole 212 with the primary coils 190 and 290 wound beforehand. Then, an adhesive is filled and fixed between the primary coils 190 and 290 and the center plate 150 or the center pole 212.
[0022]
However, since the annular plates 113 and 240, the center plate 150, and the center pole 212 are all thin, the area of each peripheral surface is small, and the primary coils 180, 190, 280, and 290 and the annular plates 113, 240, There is a problem that the adhesive strength between the center plate 150 and the center pole 212 is weak.
[0023]
In general, in the internal-magnet electromagnetic induction speaker 100, the magnet 120 is attached in a state where the inner peripheral side primary coil 190 is fixed to the center plate 150 and the center plate 150 is positioned on the yoke 110. Secure to. On the other hand, in the external magnet type electromagnetic induction speaker 200, the outer peripheral side primary coil 280 is fixed to the annular plate 240, and then the annular plate 240 is fixed to the magnet 220 attached to the yoke 110 while being positioned. .
[0024]
When this fixing operation is performed, in order to maintain a predetermined gap distance between the magnetic gaps 160 and 260 in advance, the outer peripheral side primary coil 180 and the outer peripheral side primary coil 190 or the outer peripheral side primary coil 280 Each member is positioned by inserting a gap gauge between the inner peripheral side primary coil 290 and adjusting the gap interval to be constant in the circumferential direction. , 190, 280, 290 may cause the primary coils 180, 190, 280, 290 to fall off the annular plates 113, 240, the center plate 150, and the center pole 212 due to weak adhesive strength. is there.
[0025]
Therefore, an object of the speaker device of the present invention is to overcome the above-described problems, enable easy positioning of the primary coil, and improve the attachment strength of the primary coil.
[0026]
[Means for Solving the Problems]
  In order to solve the above-described problems, the speaker device of the present invention has a bobbin fixed to the diaphragm, a yoke that forms a magnetic circuit together with a magnet and a positioning portion, and a sound signal that is disposed within the magnetic gap. And a secondary coil provided on the bobbin and disposed in the magnetic gap,At the upper end facing the secondary coilWhile the primary coil is fixed, The lower end isYorkProvided at the bottomA cylindrical body attached to the positioning part is provided.The primary coil is guided to the positioning part at the bottom of the yoke along the cylindrical body by being fixed to the cylindrical body.Is.
[0027]
  Therefore, in the speaker device of the present invention, it is not necessary to use a gap gauge to obtain a predetermined gap interval of the magnetic gap, and the mounting area of the primary coil is increased.In addition, positioning of the primary coil with respect to the yoke becomes extremely easy.
[0028]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the speaker device of the present invention will be described below with reference to the accompanying drawings.
[0029]
In the following embodiment, the present invention is applied to an electromagnetic induction speaker.
[0030]
First, an internal magnet type electromagnetic induction speaker 1 shown in FIG. 1 will be described as a first embodiment.
[0031]
The internal magnet type electromagnetic induction speaker 1 includes a yoke 2, a magnet 3, and a diaphragm 4.
[0032]
The yoke 2 has a substantially disk-shaped bottom surface portion 5, a peripheral wall portion 6 projecting upward from the periphery of the bottom surface portion 5, and an annular annular plate 7 provided on the upper edge of the peripheral wall portion 6. Formed. A positioning portion 8 is formed on the upper surface of the center portion of the bottom surface portion 5.
[0033]
The positioning portion 8 is formed in a step shape when viewed in a longitudinal sectional shape, and the first step portion 9 and the second step portion 10 are formed integrally with the bottom surface portion 5. The first step portion 9 has a disk shape, an outer peripheral surface 9 a is formed as a first step surface, and an upper surface 9 b is positioned above the upper surface of the bottom surface portion 5. The second step portion 10 has a disk shape that is slightly smaller than the first step portion 9, and is provided coaxially with the first step portion 9. The outer peripheral surface 10 a of the second step portion 10 is formed as a second step surface, and the upper surface 10 b is located above the upper surface 9 b of the first step portion 9.
[0034]
A columnar magnet 3 is attached to the central portion of the upper surface 10b of the second step portion 10, and the magnet 3 is disposed in a positioning recess (not shown) formed on the upper surface 10b of the second step portion 10, for example. Accordingly, the second step portion 10 is arranged coaxially.
[0035]
The yoke 2 has an upper surface of the annular plate 7 attached to the frame 11. The inner peripheral surface of the annular plate 7 is located on the outer side of the first step surface 9 a of the first step portion 9 with respect to the central axis of the positioning portion 8.
[0036]
A disc-shaped center plate 12 formed as a center member is attached to the upper surface of the magnet 3, and the center plate 12 is disposed in the center hole 7 a of the annular plate 7. The peripheral surface of the center plate 12 is positioned in the same phase as the second step surface 10a of the second step portion 10 with the central axis of the positioning portion 8 as a reference. A gap formed between the annular plate 7 and the center plate 12 is formed as a magnetic gap 13.
[0037]
The diaphragm 4 is formed by integrally forming a substantially hemispherical dome portion 4a located at the center portion and an edge portion 4b having a small substantially arc shape with a cross-sectional shape provided continuously on the outer periphery of the dome portion 4a. The outer end portion of the edge portion 4 b is attached to the upper surface of the frame 11. And the upper end part of the cylindrical bobbin 14 is being fixed to the outer periphery of the dome part 4a by adhesion | attachment etc.
[0038]
A one-turn secondary coil 15 is wound around and fixed to a portion near the lower end of the bobbin 14, and the secondary coil 15 is positioned in a magnetic gap 13 formed between the annular plate 7 and the center plate 12. Has been.
[0039]
An outer peripheral side primary coil 16 and an inner peripheral side primary coil 17 are arranged in the magnetic gap 13 so as to face each other with the secondary coil 15 interposed therebetween. And the outer peripheral side primary coil 16 and the inner peripheral side primary coil 17 are connected in series, and one end of each is connected to the signal lead wires 16a and 17a.
[0040]
The outer peripheral side primary coil 16 is wound around and fixed to the outer periphery of the upper end of the first cylindrical body 18 having a thin cylindrical shape. The first cylindrical body 18 has an inner diameter that is the same as the outer diameter of the first step portion 9. The first cylindrical body 18 has an inner surface whose lower end is bonded to the first step surface 9a of the first step 9 of the positioning portion 8 and is fixed to the first cylindrical body 18. The outer peripheral surface of the side primary coil 16 is bonded to the inner peripheral surface of the annular plate 7.
[0041]
The outer peripheral side primary coil 16 fixed to the first cylindrical body 18 is fixed to the yoke 2 by, for example, inserting the first cylindrical body 18 into the yoke 2 from above and placing the lower end portion to the first cylindrical body 18. This is performed by adhering to the step surface 9 a and adhering the outer peripheral surface of the outer primary coil 16 to the inner peripheral surface of the annular plate 7.
[0042]
The inner peripheral side primary coil 17 is wound around and fixed to the outer periphery of the upper end of a second cylindrical body 19 having a thin cylindrical shape. The second cylindrical body 19 has an inner diameter that is the same as the outer diameter of the second step portion 10. The inner surface of the second cylindrical body 19 is bonded to the second stepped surface 10a of the second stepped portion 10 of the positioning portion 8, and the inner surface of the upper end portion of the second cylindrical body 19 is fixed. The peripheral surface is bonded to the outer peripheral surface of the center plate 12.
[0043]
The inner peripheral side primary coil 17 fixed to the second cylindrical body 19 is fixed to the yoke 2 by, for example, pre-fitting the second cylindrical body 19 to the center plate 12 in advance and the inner surface of the upper end portion thereof. Is bonded to the center plate 12, and the second cylindrical body 19 is inserted into the yoke 2 from above while being fixed to the center plate 12, and the lower end portion is bonded to the second step surface 10a. . Then, by fitting the second cylindrical body 19 to the second step portion 10 of the positioning portion 8, the inner peripheral side primary coil 17 is positioned with respect to the yoke 2, and thereby attached to the yoke 2. Positioning of the center plate 12 with respect to the magnet 3 is also performed at the same time. The magnet 3 is fixed to the center plate 12 by using appropriate means such as adhesion and screwing.
[0044]
Thus, as described above, in the inner-magnet electromagnetic induction speaker 1, the first cylindrical body 18 and the inner circumference, in which the positioning portion 8 is formed in the yoke 2 and the outer-side primary coil 16 is fixed. The outer cylindrical primary coil 16 and the inner coil 16 are simply fitted on the first step portion 9 and the second step portion 10 of the positioning portion 8 respectively by fitting the second cylindrical body 19 to which the side primary coil 17 is fixed. The circumferential primary coil 17 can be positioned with respect to the yoke 2.
[0045]
Therefore, positioning of the outer peripheral side primary coil 16 and the inner peripheral side primary coil 17 with respect to the yoke 2 can be performed very easily, and since there is no need to use a gap gauge, the outer peripheral side primary coil 16 or the inner periphery of the gap gauge. There is no possibility of dropping off from the yoke 2 or the like due to contact with the side primary coil 17.
[0046]
Further, the first cylindrical body 18 is bonded to the first step surface 9a of the positioning portion 8 and the outer peripheral side primary coil 16 fixed to the first cylindrical body 18 is bonded to the annular plate 7, Further, since the second cylindrical body 19 is bonded to the second step surface 10a of the positioning portion 8 and bonded to the center plate 12, the bonding area is increased by increasing the number of bonded portions, and the outer peripheral side 1 The adhesive strength between the secondary coil 16 and the inner peripheral primary coil 17 is improved.
[0047]
The positioning portion 8 described above only needs to form the two step portions 9 and 10 on the bottom surface portion 5 of the yoke 2, and the positioning portion 8 can be easily formed.
[0048]
Further, the positioning portion 8 is formed with the step portions 9 and 10 so that the central portion of the yoke 2 is located at the uppermost position. On the contrary, the bottom surface is stepped so that the central portion of the yoke 2 is located at the lowest position. Alternatively, a positioning portion may be provided by forming a concave portion that is displaced downward.
[0049]
The inner-magnet electromagnetic induction speaker 1 shown in FIG. 1 is arranged such that the primary coil faces each other with the secondary coil interposed therebetween, but the present invention is a primary coil as shown in FIG. Can also be applied to the internal magnet type electromagnetic induction speaker 1A arranged only on one side of the secondary coil.
[0050]
In addition, in the internal magnet type electromagnetic induction speaker 1A shown below, the primary coil is disposed only on one side of the secondary coil as compared with the above internal magnet type electromagnetic induction speaker 1 and corresponding to this. Since only one step portion is provided as the positioning portion, the description of the internal magnet type electromagnetic induction speaker 1A is different from the internal magnet type electromagnetic induction speaker 1 in the description. Only the other parts will be described in detail, and the other parts will be denoted by the same reference numerals as the same parts in the internal magnet type electromagnetic induction speaker 1 and description thereof will be omitted.
[0051]
The positioning portion 8A is formed by forming a disk-shaped step portion 10A, and an outer peripheral surface 10c thereof is formed as a step surface.
[0052]
A primary coil 17 </ b> A is disposed in the magnetic gap 13 between the secondary coil 15 and the center plate 12. The primary coil 17A is connected to the signal lead wire 17a.
[0053]
The primary coil 17A is wound around and fixed to the outer periphery of the upper end of a cylindrical body 19A having a thin cylindrical shape. The cylindrical body 19A has an inner diameter that is the same as the outer diameter of the stepped portion 10A. The inner surface of the cylindrical body 19A is bonded to the stepped surface 10c of the stepped portion 10A of the positioning portion 8A, and the inner peripheral surface of the upper end portion of the cylindrical body 19A is bonded to the outer peripheral surface of the center plate 12. ing.
[0054]
The primary coil 17A fixed to the cylindrical body 19A is fixed to the yoke 2, for example, by previously fitting the cylindrical body 19A on the center plate 12 and bonding the inner surface of the upper end portion to the center plate 12. The cylindrical body 19A is inserted into the yoke 2 from above while being fixed to the center plate 12, the lower end portion is bonded to the stepped surface 10c, and the center plate 12 is fixed to the magnet 3 by bonding or the like.
[0055]
Thus, even if the primary coil 17A is disposed only on one side of the secondary coil 15 as in the internal magnet type electromagnetic induction speaker 1A, the positioning of the primary coil 17A with respect to the yoke 2 is extremely difficult. It can be done easily.
[0056]
Although the positioning portion 8A described above is provided as the stepped portion 10A, the positioning portion 8A may be formed as a concave portion, and the outer peripheral surface of the lower end portion of the cylindrical body 19A may be bonded to the peripheral surface of the concave portion.
[0057]
In addition, the above-described inner-magnet electromagnetic induction speaker 1 </ b> A is configured by arranging a primary coil 17 </ b> A between the secondary coil 15 and the center plate 12 in the magnetic gap 13. A primary coil may be arranged between the coil 15 and the annular plate 7.
[0058]
An inner-magnet electromagnetic induction speaker 1B shown in FIG. 3 is obtained by directly bonding a first cylindrical body to which an outer peripheral primary coil is fixed to an annular plate 7.
[0059]
The internal magnet type electromagnetic induction speaker 1B shown below is different from the above internal magnet type electromagnetic induction speaker 1 only in that the first cylindrical body is directly bonded to the annular plate. In the description of the magnetic type electromagnetic induction speaker 1B, only different parts from the internal magnetic type electromagnetic induction speaker 1 will be described in detail, and the other parts are the same as those in the internal magnetic type electromagnetic induction speaker 1. The same reference numerals as those in FIG.
[0060]
The outer peripheral side primary coil 16 is wound around and fixed to the inner periphery of the upper end portion of the first cylindrical body 18A having a thin cylindrical shape. The first cylindrical body 18 </ b> A has an inner diameter that is the same as the outer diameter of the first step portion 9. The first cylindrical body 18A has its inner surface at the lower end bonded to the first step surface 9a of the first step 9 of the positioning section 8, and the outer peripheral surface of the first cylindrical body 18A is annular. It is bonded to the inner peripheral surface of the plate 7.
[0061]
In general, when the primary coil is directly bonded to the inner surface of the annular plate, the outer peripheral surface of the primary coil is not flat, so it must be bonded after making a flat surface with an adhesive, When the cylindrical body is inserted into the yoke, the primary coil may come into contact with the inner surface of the annular plate and the primary coil may be damaged.
[0062]
However, by adhering the outer peripheral side primary coil 16 to the annular plate 7 via the first cylindrical body 18A as in the above-described inner-magnet electromagnetic induction speaker 1B, the bonding operation becomes very easy. The outer peripheral side primary coil 16 does not come into contact with the annular plate 7 to cause damage.
[0063]
An inner-magnet electromagnetic induction speaker 1C shown in FIG. 4 has a positioning portion formed as an annular groove.
[0064]
The internal magnet type electromagnetic induction speaker 1C shown below is different from the above internal magnet type electromagnetic induction speaker 1 only in that the positioning portion is formed as an annular groove. In the description of the induction speaker 1C, only the parts different from the internal magnet type electromagnetic induction speaker 1 will be described in detail, and the other parts will be attached to the same parts in the internal magnet type electromagnetic induction speaker 1. The same reference numerals as those in FIG.
[0065]
The positioning portion 8B includes two annular first grooves 20 located on concentric circles formed on the bottom surface portion 5, and a second groove 21 located on the inside thereof.
[0066]
The outer peripheral side primary coil 16 is wound around and fixed to the outer periphery of the upper end portion of the first cylindrical body 18. The lower end portion of the first cylindrical body 18 is fixed in the first groove 20, and the outer peripheral surface of the outer peripheral side primary coil 16 is bonded to the inner peripheral surface of the annular plate 7.
[0067]
The outer peripheral side primary coil 16 fixed to the first cylindrical body 18 is fixed to the yoke 2 by, for example, inserting the first cylindrical body 18 into the yoke 2 from above and placing the lower end portion to the first cylindrical body 18. The fixing is performed in the groove 20 and the outer peripheral surface of the outer primary coil 16 is bonded to the inner peripheral surface of the annular plate 7.
[0068]
The inner peripheral side primary coil 17 is wound around and fixed to the outer periphery of the upper end portion of the second cylindrical body 19. The lower end portion of the second cylindrical body 19 is fixed in the second groove 21 and the inner peripheral surface of the upper end portion of the second cylindrical body 19 is bonded to the outer peripheral surface of the center plate 12.
[0069]
The inner peripheral side primary coil 17 fixed to the second cylindrical body 19 is fixed to the yoke 2 by, for example, pre-fitting the second cylindrical body 19 to the center plate 12 in advance and the inner surface of the upper end portion thereof. Is bonded to the center plate 12, and the second cylindrical body 19 is inserted into the yoke 2 from above while being fixed to the center plate 12, and the lower end portion is fixed to the second groove 21.
[0070]
Thus, the positioning portion 8B described above only needs to form the two grooves 20 and 21 in the bottom surface portion 5 of the yoke 2, and the positioning portion 8A can be formed very easily.
[0071]
In the inner-magnet electromagnetic induction speaker 1C, the first cylindrical body 18 and the second cylindrical body 19 are fixed so as to be fitted into the first groove 20 and the second groove 21, respectively. Therefore, the mounting strength of the outer peripheral side primary coil 16 and the inner peripheral side primary coil 17 can be further improved.
[0072]
Next, as a second embodiment, an external magnet type electromagnetic induction speaker 22 shown in FIG. 5 will be described.
[0073]
The outer magnet type electromagnetic induction speaker 22 includes a yoke 23, a magnet 24, and a diaphragm 25.
[0074]
The yoke 23 is formed by integrally forming a bottom surface portion 26 and a center pole 27 protruding upward from the center portion of the bottom surface portion 26, and the center pole 27 is formed as a center member. A positioning portion 28 is integrally formed on the upper surface of the center portion of the bottom surface portion 26.
[0075]
The positioning portion 28 is formed as a step portion 29 having a disk shape. The outer peripheral surface 29 a of the step portion 29 is formed as a step surface, and the upper surface 29 b is located above the upper surface of the bottom surface portion 26. The center pole 27 is integrally provided at the center of the upper surface 29 b of the stepped portion 29.
[0076]
A cylindrical magnet 24 is attached to the outer end portion of the upper surface of the bottom surface portion 26. And the magnet 24 is arrange | positioned coaxially with the step part 29 and the center pole 27 by arrange | positioning in the positioning recessed part which is not shown in figure formed in the upper surface of the bottom face part 26, for example.
[0077]
An annular plate 30 is attached to the upper surface of the magnet 24, and the annular plate 30 is positioned corresponding to the upper end portion of the center pole 27, that is, in the center hole 30 a of the annular plate 30. The upper end of the pole 27 is located. The upper surface of the outer end portion of the annular plate 30 is attached to the frame 31. A gap formed between the annular plate 30 and the center pole 27 is formed as a magnetic gap 32.
[0078]
The inner peripheral surface of the annular plate 30 is located on the outer side of the step surface 29 a of the step portion 29 with respect to the central axis of the step portion 29 of the positioning portion 28.
[0079]
The diaphragm 25 has a central portion 25a having an arc shape with a cross-sectional shape located at the central portion, an inclined portion 25b continuously provided on the outer periphery of the central portion 25a, and displaced upward as it goes outward, and the inclined portion 25b. An edge portion 25c continuous to the outer periphery and a fixing portion 33 provided continuously to the outer periphery of the central portion 25a and projecting in the opposite direction to the inclined portion 25b. The outer end portion of the edge portion 25c is the upper surface of the outer end portion of the frame 31. Is attached. And the upper end part of the cylindrical bobbin 34 is being fixed to the front-end | tip part of the fixing | fixed part 33 by adhesion | attachment etc.
[0080]
A one-turn secondary coil 35 is wound and fixed to a portion near the lower end of the bobbin 34, and the secondary coil 35 is positioned in a magnetic gap 32 formed between the annular plate 30 and the center pole 27. Has been.
[0081]
An outer peripheral side primary coil 36 and an inner peripheral side primary coil 37 are arranged in the magnetic gap 32 so as to face each other with the secondary coil 35 interposed therebetween. The outer peripheral side primary coil 36 is fixed to the inner peripheral surface of the annular plate 30, the inner peripheral side primary coil 37 is fixed to the upper end portion of the outer peripheral surface of the center pole 27, and the outer peripheral side primary coil 36 and the inner peripheral side 1 The next coil 37 is connected in series. One ends of the outer peripheral side primary coil 36 and the inner peripheral side primary coil 37 are connected to signal lead lines 36a and 37a, respectively.
[0082]
The outer peripheral side primary coil 36 is wound around and fixed to the outer periphery of the upper end of a first cylindrical body 38 having a thin cylindrical shape. The first cylindrical body 38 has an inner diameter that is the same as the outer diameter of the stepped portion 29 of the positioning portion 28. Then, the inner surface of the lower end portion of the first cylindrical body 38 is bonded to the step surface 29 a of the stepped portion 29, and the outer peripheral surface of the outer peripheral side primary coil 36 fixed to the first cylindrical body 38 is annular. It is bonded to the inner peripheral surface of the plate 30.
[0083]
The outer peripheral side primary coil 36 fixed to the first cylindrical body 38 is fixed to the yoke 23 by, for example, the outer peripheral side 1 fixed to the first cylindrical body 38 on the inner peripheral surface of the annular plate 30 in advance. The first coil 38 is inserted into the center hole 24a of the magnet 24 from above while the next coil 36 is bonded and fixed to the annular plate 30, and the lower end portion is the step of the step portion 29 of the positioning portion 28. This is done by adhering to the surface 29a. Then, the outer peripheral side primary coil 36 is positioned with respect to the yoke 2 by fitting the first cylindrical body 38 to the step portion 29, thereby positioning the annular plate 30 with respect to the magnet 24 attached to the yoke 2. Will be done at the same time. The magnet 24 is fixed to the annular plate 30 by using an appropriate means such as adhesion and screwing.
[0084]
The inner peripheral side primary coil 37 is wound around and fixed to the outer periphery of the upper end of a second cylindrical body 39 having a thin cylindrical shape. The second cylindrical body 39 has an inner diameter that is substantially the same as the outer diameter of the center pole 27. The second cylindrical body 39 is bonded in a state where the inner surface of the second cylindrical body 39 is fitted onto the center pole 27.
[0085]
The inner peripheral side primary coil 37 fixed to the second cylindrical body 39 is fixed to the center pole 27 by, for example, fitting the second cylindrical body 39 to the center pole 27 and bonding it. .
[0086]
As described above, in the outer-magnet electromagnetic induction speaker 22, the first cylindrical body 38 and the inner periphery, in which the positioning portion 28 is formed in the yoke 2 and the outer-side primary coil 36 is fixed, are provided. The outer cylindrical primary coil 36 is simply fitted on the center pole 27 formed integrally with the stepped portion 29 of the positioning portion 28 and the yoke 2, respectively, by fixing the second cylindrical body 39 to which the side primary coil 37 is fixed. And positioning of the inner peripheral side primary coil 37 with respect to the yoke 2 can be performed.
[0087]
Therefore, the outer peripheral side primary coil 36 and the inner peripheral side primary coil 37 can be positioned very easily with respect to the yoke 2, and it is not necessary to use a gap gauge. There is no risk of dropping from the yoke 2 or the like due to contact with the side primary coil 37.
[0088]
The first cylindrical body 38 is bonded to the stepped surface 29a of the positioning portion 28, and the outer peripheral side primary coil 36 fixed to the first cylindrical body 38 is bonded to the annular plate 30. Since the second cylindrical body 39 is bonded to the center pole 27, the bonding area is increased, and the bonding strength of the outer peripheral side primary coil 36 and the inner peripheral side primary coil 37 is improved.
[0089]
In addition, the above-mentioned positioning part 28 only needs to form the step part 29 in the bottom face part 26 of the yoke 2, and formation of the positioning part 28 is easy.
[0090]
In addition, the positioning portion 28 is formed as a stepped portion 29 that protrudes upward, but conversely, the positioning portion is formed as a concave portion that opens upward, and the first cylindrical body 38 is bonded to the peripheral surface of the concave portion. You may make it do. Further, the positioning portion may be formed as an annular groove, and the lower end portion of the first cylindrical body 38 may be inserted and fixed in the groove.
[0091]
In the above description, the outer magnet side electromagnetic induction speaker 22 is provided with the outer peripheral side primary coil 36 and the inner peripheral side primary coil 37 facing each other with the secondary coil 35 interposed therebetween. May be an external magnet type electromagnetic induction speaker arranged only on one side of the outer peripheral side or the inner peripheral side of the secondary coil.
[0092]
Furthermore, although the outer-magnet electromagnetic induction speaker 22 described above is one in which the outer peripheral side primary coil 36 is directly bonded to the annular plate 30, the outer peripheral side primary coil is provided on the inner peripheral surface of the first cylindrical body. The upper end of the inner peripheral surface of the first cylindrical body may be fixed and directly bonded to the annular plate 30.
[0093]
It should be noted that the specific shapes and structures of the respective parts shown in the above-described embodiments are merely examples of implementation in carrying out the present invention, and the technology of the present invention is thereby limited. The scope should not be interpreted in a limited way.
[0094]
【The invention's effect】
  As is apparent from the above description, the speaker device of the present invention includes a bobbin fixed to a diaphragm, a yoke that forms a magnetic circuit together with a magnet and a positioning portion, and an audio signal disposed in a magnetic gap. Is provided, and a secondary coil provided in the bobbin and disposed in the magnetic gap,At the upper end facing the secondary coilWhile the primary coil is fixed, The lower end isYorkProvided at the bottomA cylindrical body attached to the positioning part is provided.The primary coil is guided to the positioning part at the bottom of the yoke along the cylindrical body by being fixed to the cylindrical body.It is characterized by that.
[0095]
Therefore, the positioning of the primary coil with respect to the yoke can be performed very easily, and there is no possibility of dropping off from the yoke or the like due to the contact of the gap gauge with the primary coil because there is no need to use a gap gauge.
[0096]
Further, the mounting area of the primary coil directly or via the cylindrical body is increased, and the mounting strength can be improved.
[0097]
The invention described in claim 2 includes an annular plate having a center hole and a center member disposed inside the annular plate, wherein the magnetic gap is formed between the annular plate and the center member, The coil is disposed between the annular plate and the secondary coil or between the center member and the secondary coil.
[0098]
Thus, even if the primary coil is arranged only on one side of the secondary coil, the positioning of the primary coil with respect to the yoke can be performed very easily.
[0099]
In the invention described in claim 3, an annular plate having a center hole and a center member disposed inside the annular plate are provided, and the magnetic gap is formed between the annular plate and the center member. Since the primary coil is fixed to the inner peripheral surface of the annular plate via a cylindrical body or is fixed to the outer peripheral surface of the center member via the cylindrical body, the fixing operation becomes very easy and the primary coil is fixed. There is no case where damage is caused by contact with the annular plate or the center member.
[0100]
The invention described in claim 4 includes an annular plate having a center hole and a center member disposed inside the annular plate, wherein the magnetic gap is formed between the annular plate and the center member, The coils are respectively disposed between the annular plate and the secondary coil and between the center member and the secondary coil.
[0101]
Thus, even if the primary coil is disposed with the secondary coil interposed therebetween, the positioning of the primary coil with respect to the yoke can be performed very easily.
[0102]
In the invention described in claim 5, since the positioning portion provided on the yoke is formed as a stepped portion, it is easy to form the positioning portion.
[0103]
In the invention described in claim 6, since the positioning portion provided on the yoke is formed as an annular groove, it is very easy to form the positioning portion.
[0104]
Moreover, since it can fix by inserting a cylindrical body in a groove | channel, the further improvement of the attachment strength of a primary coil can be aimed at.
[Brief description of the drawings]
FIG. 1 is a schematic longitudinal sectional view showing a first embodiment in which a speaker device of the present invention is applied to an internal magnet type electromagnetic induction speaker.
FIG. 2 is a schematic longitudinal sectional view showing an internal magnet type electromagnetic induction speaker in which a primary coil is disposed only on one side of a secondary coil.
FIG. 3 is a schematic longitudinal sectional view showing an internal magnet type electromagnetic induction speaker in which a first cylindrical body is directly fixed to an annular plate.
FIG. 4 is a schematic longitudinal sectional view showing an internal magnet type electromagnetic induction speaker in which a positioning portion is formed as a groove.
FIG. 5 is a schematic longitudinal sectional view showing a second embodiment in which the speaker device of the present invention is applied to an external magnetic type electromagnetic induction speaker.
FIG. 6 is a schematic longitudinal sectional view showing a conventional inner magnet type electromagnetic induction speaker.
FIG. 7 is a schematic longitudinal sectional view showing a conventional outer magnet type electromagnetic induction speaker.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Internal magnet type electromagnetic induction speaker (speaker apparatus), 2 ... York, 3 ... Magnet, 4 ... Diaphragm, 7 ... Ring plate, 7a ... Center hole, 8 ... Positioning part, 9 ... 1st step part (stage) Part), 10 ... second step part (step part), 12 ... center plate (center member), 13 ... magnetic gap, 14 ... bobbin, 15 ... secondary coil, 16 ... outer side primary coil (primary coil) , 17 ... Inner peripheral side primary coil (primary coil), 18 ... First cylindrical body (cylindrical body), 19 ... Second cylindrical body (cylindrical body), 1A ... Inner magnet type electromagnetic Inductive speaker (speaker device), 8A ... positioning portion, 10A ... step portion, 17A ... primary coil, 19A ... cylindrical body, 1B ... inner magnet type electromagnetic induction speaker (speaker device), 18A ... first cylindrical body. (Cylindrical body) 1C... Internal magnet type electromagnetic induction speaker (speaker device), 8 ... Positioning part, 20 ... First groove (groove), 21 ... Second groove (groove), 22 ... External magnetic type electromagnetic induction speaker (speaker device), 23 ... Yoke, 24 ... Magnet, 25 ... Diaphragm, 27 ... Center pole (center member), 28 ... Positioning part, 29 ... Step part, 30 ... Ring plate, 30a ... Center hole, 32 ... Magnetic gap, 34 ... Bobbin, 35 ... Secondary coil, 36 ... Outer primary Coil (primary coil), 37 ... inner peripheral side primary coil (primary coil), 38 ... first cylindrical body (tubular body), 39 ... second cylindrical body (tubular body)

Claims (6)

A bobbin fixed to the diaphragm;
A yoke in which a magnetic circuit is formed together with a magnet and a positioning portion is formed;
A primary coil disposed in the magnetic gap and receiving an audio signal;
A secondary coil provided on the bobbin and disposed in the magnetic gap,
The primary coil is fixed to an upper end portion facing the secondary coil, and a cylindrical body attached to a positioning portion provided at a lower end portion of the yoke is provided .
The speaker device according to claim 1, wherein the primary coil is fixed to the cylindrical body so as to be guided to the positioning portion at the bottom of the yoke along the cylindrical body . An annular plate having a central hole;
A center member disposed inside the annular plate,
The magnetic gap is formed between the annular plate and the center member;
The speaker device according to claim 1, wherein the primary coil is disposed between the annular plate and the secondary coil or between the center member and the secondary coil. An annular plate having a central hole;
A center member disposed inside the annular plate,
The magnetic gap is formed between the annular plate and the center member;
The speaker device according to claim 1, wherein the primary coil is fixed to the inner peripheral surface of the annular plate via a cylindrical body or is fixed to the outer peripheral surface of the center member via a cylindrical body. . An annular plate having a central hole;
A center member disposed inside the annular plate,
The magnetic gap is formed between the annular plate and the center member;
The speaker device according to claim 1, wherein the primary coil is disposed between the annular plate and the secondary coil and between the center member and the secondary coil. The speaker device according to claim 1, wherein the positioning portion provided in the yoke is formed as a stepped portion. The speaker device according to claim 1, wherein the positioning portion provided in the yoke is formed as an annular groove.

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