The present invention relates to a diaphragm for speaker, a speaker which includes the diaphragm and a method of manufacturing the diaphragm.
Characteristics of a speaker diaphragm greatly depend on the propagation velocity and the internal loss. Namely, a speaker diaphragm having the higher propagation velocity exhibits superior vibration characteristics in the high frequency sound range, and the one having the greater internal loss hardly causes the resonance phenomenon and reproduces the sounds of superior quality.
In general, however, diaphragms having the higher propagation velocity show the smaller internal loss while those having the greater internal loss are slow in the propagation velocity. Therefore, it has been important for a diaphragm to have an appropriate internal loss and an appropriate velocity of propagation, as well as smooth vibration characteristics.
Aiming to implement such a speaker diaphragm, it has been proposed, as shown in
The above-described conventional diaphragm 73 showed smooth vibration characteristics for the whole sound range. However, the diaphragm 73 was unable to produce satisfactory vibration characteristics in the high frequency sound region because of the slow propagation velocity of paper sheet 72.
[Patent Document 1]
The present invention offers a speaker diaphragm which exhibits superior vibration characteristics at high sound region.
A speaker diaphragm in the present invention includes a woven cloth impregnated with a thermosetting resin, which is in the thermo-cured state, and a paper board which is bonded to be unitized with the woven cloth at the back surface. The woven cloth has weave texture exposed on the surface that is opposite to that making contact with the paper sheet.
A diaphragm in the present invention has a higher strength since it is made with woven cloth; its hardness is also high because the impregnated thermosetting resin is in the thermo-cured state. Thus, the present invention offers a speaker diaphragm which is superior in the vibration characteristics at high frequency sound range, and a speaker which includes the diaphragm.
1, 205, 305 Woven Cloth
2, 306 Paper Board
3, 207, 307 Longitudinal Thread
4, 208, 308 Latitudinal Thread
5, 209, 311 Weave Texture
6 Upper Metal Mold
7 Lower Metal Mold
8 Net
8
a Pulp Fiber Layer
10 Magnetic Gap
11 Magnetic Circuit
12 Lead Wire
13 Voice Coil
100, 200, 312 Speaker
104, 204, 304 Diaphragm for Speaker
15 Frame
16 First Edge
17 Lead Out Wire
18 Second Edge
19 Suspension Holder
21 Glue
29 Dust Cap
206 Board of Scooped Paper
30, 40 First Metal Mold
31, 41 Second Metal Mold
22, 34 Screen of Scooped Paper
23, 35 Layer of Paper Fiber
309 Paper Layer
310, 36 Mixed Layer of Thermosetting Resin
Now in the following, a speaker diaphragm in the present invention, a speaker including the diaphragm, and a method of manufacturing the diaphragm are described in accordance with the first exemplary embodiment of the present invention.
Lead out wire 17 coming from lead wire 12 of voice coil 13 is guided towards frame 15 keeping the non-contact status with respect to diaphragm 104, from a certain place (middle place) of voice coil 13 between the point where diaphragm 104 is connected to and the section staying within magnetic gap 10.
Voice coil 13 is further connected with second edge 18 which is made of an elastic material formed in a ring shape, as viewed from the above. One end of second edge 18 is connected with voice coil 13 at a certain place between the point where lead out wire 17 is taken from and the section staying within magnetic gap 10. The other end of second edge 18 is made to have contact with frame 15 at a certain place of inner surface in the middle part.
These second edge 18 and first edge 16 are made with urethane, rubber or the like elastic material. The shape of second edge 18 is swelling out downward, whereas that of first edge 16 is swelling out upward, viz. in the opposite direction to each other.
Further provided on second edge 18 is suspension holder 19 which is made of a hard material and ring-shaped as viewed from the above. The suspension holder is disposed on the upper surface (the surface at the diaphragm 14 side) close to the place of connection with voice coil 13. Suspension holder 19 is glued so as it is integrated with the voice coil.
The procedure of assembling a speaker in accordance with the first exemplary embodiment of the present invention is as follows.
As the first step, mount magnetic circuit 11 in frame 15, attach second edge 18 in frame 15, and then dispose voice coil 13 from above the frame 15 so as the lower end goes down through the opening of second edge 18. Place lead wire 12 at a certain specified position in magnetic gap 10 and hold it there (in this stage, suspension holder 19 has already been attached glued on the upper surface of second edge 18).
And then, dispense glue 21 downward from above the extended portion 18a of second edge 18 so as it proceeds to reach onto the upper surface of suspension holder 19 and extended portion 18a as well as the neighboring region of suspension holder 19. In this way, suspension holder 19 is attached to and held by voice coil 13 as if they constitute a single piece.
In the above-described assembly, since voice coil 13 is wound around in the lower end with lead wire 12, the diameter of outer circumference at the bottom end portion is greater than that at the middle and upper sections.
However, because second edge 18 is made with an elastic material, the second edge can allow the section of lead wire 12 of voice coil 13 to go through the opening which is elastically deformed for a larger diameter. After the section went through, second edge 18 sticks tight around the outer circumferential surface of voice coil 13 at the middle section by elastically deforming for a smaller diameter.
Therefore, glue 21 dispensed from the above for fixing voice coil 13 and suspension holder 19 together seldom ooze down further beneath second edge 18, because portion 18a extended from second edge 18 is sticking tight to the outer circumferential surface of voice coil at the middle section due to elastic deformation for smaller diameter. So, it seldom disturbs the free motion of voice coil 3.
In addition to that the second edge 18 is made with an elastic member, the configuration that the thickness of portion 18a extended from second edge 18 is made to be thinner helps the above-described elastic deformations for larger diameter and for smaller diameter taking place easily. Thus, the prevention of possible disturbance on the free motion of voice coil 13 is further ensured. As shown in
Next, connect lead out wire 17 and place diaphragm 104 so as the outer circumferential surface of voice coil 13 at the upper end pushes out from the inner circumference of diaphragm 104. Fix with glue the outer circumferential surface voice coil 13 with the inner circumference of diaphragm 104, and the upper opening of frame 15 with ring-shaped first edge 16, respectively.
Finally, cover the upper end of voice coil 13 with dust cap 29 to complete the assembling process.
Reference is made to
This is naturally reflected on the up-and-down motion of diaphragm 104. As the result, less distortion is produced from the speaker.
Woven cloth 1 contains at least one of the fibers among the group of aramid fiber, polyester fiber, acrylic fiber, cotton fiber, carbon fiber, glass fiber and silk fiber. Instead, it may be provided by employing woven cloth 1 which contains a synthetic fiber and paper board 2 which contains a synthetic fiber, in order to have the synthetic fibers in woven cloth and paper board heat-sealed among each other. The latter configuration enhances the strength of integration between woven cloth 1 and paper board 2.
Woven cloth 1 is consisting of longitudinal threads 3 and latitudinal threads 4, each of these threads contains a thermosetting resin in the inside as well as the surroundings. These longitudinal threads 3 and latitudinal threads 4 as well as woven cloth 1 which is consisting of such threads have been brought into hardened state since the thermosetting resin was thermo-cured. As for the material of thermosetting resin, those which contain at least one resin among the group of phenol resin, acrylic resin, epoxy resin and vinyl-ester resin may be used.
Now in the following, a method of manufacturing diaphragm 104 is described.
Upper metal mold 6 has a conical shape protruding downward, while lower metal mold 7 is designed to be coupled with the conical mold. Respective metal molds are provided with built-in heater (not shown).
In the first place, sufficiently lift upper metal mold 6 upward above lower metal mold 7.
In
Dispose flat woven cloth 9, which is woven cloth 1 before the molding, between upper metal mold 6 and lower metal mold 7.
In
After they are pressurized and heated, woven cloth 1 and paper board 2 disposed at the back surface (the lower surface in
In the chart, the curve in broken line represents the vibration characteristics of a diaphragm which is produced with board of pulp paper alone. In this case, the diaphragm like this one is not hardened. The characteristics deteriorate in the high frequency sound range; it is difficult to extend the marginal frequency of high frequency sounds.
A speaker diaphragm in the present invention, a speaker which includes the diaphragm, and a method of manufacturing the diaphragm are described in accordance with the second exemplary embodiment.
Woven cloth 205 includes at least one of high-strength fibers among the group of aramid fiber, polyester fiber, acrylic fiber, cotton fiber, carbon fiber, glass fiber and silk fiber.
Woven cloth 205 has at the back surface a board of scooped paper 206 made with cellulose fiber alone or the one mixed with a chemical fiber, which is integrated by thermo compression bonding. Board of scooped paper 206 evenly contains a thermosetting resin whose property is identical to the one contained in woven cloth 205; namely, the same thermosetting resin as that contained in woven cloth 205 or the one whose melting point and coefficient of thermal contraction are close to those of the resin contained in woven cloth 205. In the same manner as with woven cloth 205, board of scooped paper 206 has been in the thermo-cured state.
As for the material of thermosetting resin, those resins which contain at least one resin among the group of phenol resin, acrylic resin, epoxy resin and vinyl ester resin can be used.
Disc-shaped diaphragm 204 is connected at the inner circumference with voice coil 13 in the section which is outside the magnetic gap 10. Outer circumference of diaphragm 204 is connected with the inner circumference of ring-shaped first edge 16, as viewed from the above, which is supported by the upper opening section of dish-shaped frame 15. Semi-spherical dust cap 29 is provided at the vicinity of inner circumference of diaphragm 204, in order to prevent dust particles, humid air, etc. intruding into the inside of speaker 200.
Lead out wire 17 from lead wire 12 of voice coil 13 is taken out from a certain place (middle section) of voice coil 13 between the point of connection with diaphragm 204 and the section which stays in magnetic gap 10 to be guided towards frame 15, keeping the free-of-contact state with respect to diaphragm 204.
Further, voice coil 13 is connected at a certain place between the point where lead out wire 17 is led out and the section which says in magnetic gap 10 with one of the ends of second edge 18 which is made with an elastic material formed in a ring shape as viewed from the above. The other end of second edge 18 is in contact with inner surface of frame 15 in the middle part.
These second edge 18 and first edge 16 are formed with urethane, rubber or the like elastic material. Second edge 18 is shaped swelling downward, whereas first edge 16 swelling upward; thus, they are swelling in the directions opposite to each other.
In the configuration that first edge 16 and second edge 18 have been shaped to swell towards directions opposite to each other, the moving coil loads of voice coil 13 up and down are made to be closely resembled among each other. This is naturally reflected on the up and down behavior of diaphragm 204. Consequently, distortion contained in the sounds reproduced from speaker 200 can be reduced.
When voice coil 13 of speaker 200 receives sound signal, magnetic field of magnetic circuit 11 reacts and voice coil 13 is driven up and down by electromotive force in accordance with the Fleming's left hand rule. Diaphragm 204 connected at the inner circumference with voice coil 13 moves accordingly to vibrate the air. Speaker 200 generates sounds in this way.
Diaphragms made with a board of scooped paper which employs such materials as pulp, carbon, etc. for the base material, however, can not offer satisfactory vibration characteristics in the high frequency sound region, due to slow propagation velocity of the board of scooped paper.
Therefore, in diaphragm 204 in the second embodiment, board of scooped paper 206 is impregnated with a thermosetting resin at the surfaces at the woven cloth side and the opposite side. This configuration is effective to improve the vibration characteristics at the high frequency sound region, because the impregnated thermosetting resin has been thermo-cured and the hardness of board of scooped paper 206 is raised. As the result of increased hardness with board of scooped paper 206, the velocity of propagation increases, which implements improved vibration characteristics of diaphragm 204 in the high frequency region.
Furthermore, since board of scooped paper 206 of diaphragm 204 in the second embodiment has been thermo-cured with the thermosetting resin, the strength to withstand a stress caused during sound reproduction of speaker 200 has been enhanced. So, in addition to the improved vibration characteristics in high frequency sound region as described above, diaphragm 204 has reduced possibility of mechanical breakage.
Board of scooped paper 206 may be impregnated with thermosetting resin also into the inside. By so doing, the hardness of board of scooped paper 206 can further be increased, and the vibration characteristics in high frequency sound region can be improved further.
Board of scooped paper 206 in the second embodiment is impregnated with a thermosetting resin having a property which is identical with that of the one used for woven cloth 205. As the result, the tightness of contact at the border between board of scooped paper 206 and woven cloth 205 is increased to a sufficient bonding strength. Thus, toughness of diaphragm 204 can be increased further.
It is preferred to have weave texture 209 exposed on woven cloth 205 at the surface that is opposite to the junction with board of scooped paper 206. By so doing, occurrence of the local resonance phenomenon at the front surface of diaphragm 204 can be avoided.
As for the material of thermosetting resin for impregnation in woven cloth 205, it is preferred to use the one which contains at least one resin among the group of phenol resin, acrylic resin, epoxy resin and vinyl ester resin. Those resins which contain such a resin can be thermo-cured to a satisfactory hardness during the process of thermo compression bonding. Thus the hardness of diaphragm 204 is increased, and the vibration characteristics of diaphragm 204 can be improved in the high frequency sound region.
Woven cloth 205 may be made with a woven cloth which contains at least one fiber among the group of aramid fiber, polyester fiber, acrylic fiber, cotton fiber, carbon fiber, glass fiber and silk fiber. Such a woven cloth containing the fiber can increase the strength of woven cloth 205. As the result, the hardness of diaphragm 204 can be enhanced, and the vibration characteristics improved in the high frequency sound region.
Now in the following, a method of manufacturing diaphragm 204 is described.
First metal mold 30 has a conical shape protruding downward, while second metal mold 31 is bowl-shaped for coupling with the conical metal mold. Respective metal molds have built-in heater (not shown).
In the first place, lift first metal mold 30 upward to be sufficiently high above second metal mold 31.
Reference is made to
Referring to
Referring to
Then, refer to
Lower first metal mold 30 down to second metal mold 31, as shown in
With woven cloth 24 and layer of paper fiber 23 kept in the pressurized state, heat first metal mold 30 and second metal mold 31 to 180° C.-250° C. in order to thermo-cure the mixed thermosetting resin for integrating woven cloth 24 and layer of paper fiber 23. Woven cloth 24 and layer of paper fiber 23 thus integrated are taken out of molding facility. Screen of scooped paper 22 is peeled away from layer of paper fiber 23. Diaphragm 204 as shown in
As described in the above, a manufacturing method in accordance with the second embodiment implements the high hardness of diaphragm 204 by thermo-curing thermosetting resins contained in board of scooped paper 206 and woven cloth 205. As the result, the propagation velocity with board of scooped paper 206 is raised and the vibration characteristics of diaphragm 204 can be improved in the high frequency sound region.
Diaphragm 204 in the second embodiment of the present invention offers superior vibration characteristics in the high frequency sound region, which could be used for improving the sound quality of speakers.
A speaker diaphragm, a speaker which includes the diaphragm, and a method of manufacturing the diaphragm are described in accordance with the third exemplary embodiment of the present invention.
Woven cloth 305 is consisting of longitudinal threads 307 and latitudinal threads 308, each of these threads contains a thermosetting resin (not shown) in the inside as well as the surroundings. Longitudinal threads 307 and latitudinal threads 308 as well as woven cloth 305 consisting of such threads have been brought into hardened state since the thermosetting resin was thermo-cured. Woven cloth 305 includes at least one of fibers among the group of aramid fiber, polyester fiber, acrylic fiber, cotton fiber, carbon fiber, glass fiber and silk fiber.
Paper board 306 which is integrated with woven cloth 305 at the back surface by thermo compression bonding is made with cellulose fiber alone, or the one mixed with a certain chemical fiber. Paper board 306 includes paper layer 309, and mixed layer of thermosetting resin 310 which is paper board 306 impregnated with thermosetting resin. Mixed layer of thermosetting resin 310 is at the woven cloth 305 side as shown in
The thermosetting resin contained in paper board 306 is the one having identical property as that contained in woven cloth 305; namely, the melting point and the heat contraction of them are substantially the same, or close to. Consequently, there is not much difference in the heat contraction at high temperature between the thermosetting resin contained in paper board 306 and that in woven cloth 305; so, paper board 306 and woven cloth 305 are bonded tightly to each other, and there is hardly any gap observed at the interface. As to the material of thermosetting resin, those resins which contain at least one resin among the group of phenol resin, acrylic resin, epoxy resin and vinyl ester resin may be employed.
Disc-shaped diaphragm 304 is connected at the inner circumference with voice coil 13 at a place not disposed in magnetic gap 10. The outer circumference of diaphragm 304 is connected with the inner circumference of first edge 16 which is ring-shaped as viewed from the above and supported by the upper opening section of dish-shaped frame 15. Dust cap 29 having semi-spherical form is provided on the vicinity of inner circumference of diaphragm 304, in order to prevent dust particles, humid air, etc. coming into the inside of speaker 312.
Lead out wire 17 from lead wire 12 of voice coil 13 is taken out from a certain point of voice coil 13 (middle part) between the place of connection with diaphragm 304 and the section which stays in magnetic gap 10 towards frame 15, maintaining the free-of-contact state with respect to diaphragm 304.
Voice coil 13 is further connected at a certain place between the point where lead out wire 17 is led out and the section which stays in magnetic gap 10 with one end of second edge 18, which is made with an elastic material formed in a ring shape as viewed from the above. The other end of second edge 18 is having contact with the inner surface of frame 15 in the middle part.
These second edge 18 and first edge 16 are formed with urethane, rubber or the like elastic material. Second edge 18 is shaped swelling downward, whereas first edge 16 swelling upward; thus, they are swelling in the direction opposite to each other.
In the configuration that first edge 16 and second edge 18 are shaped swelling towards the directions opposite to each other, the moving coil loads up and down of voice coil 13 are closely resembled.
This is naturally reflected on the up and down movements of diaphragm 304. Consequently, distortion contained in the sounds reproduced by speaker 312 can be reduced.
When AC current containing a sound signal is applied to voice coil 13, it reacts to the magnetic field of magnetic circuit 11 and voice coil 13 moves up and down driven by electromotive force caused in accordance with the Fleming's left hand rule. Diaphragm 304 which is connected at the inner circumference with voice coil 13 moves accordingly to vibrate the air. Speaker 312 generates sounds in this mechanism.
If woven cloth 305 and paper board 306 constituting diaphragm 304 were not bonded together with a sufficient strength, there is a risk that woven cloth 305 and paper board 306 could be separated against each other due to vibrations given by voice coil 13. This causes a trouble with diaphragm 304.
To avoid this to happen, mixed layer of thermosetting resin 310 which contains a resin having identical property as the one contained in woven cloth 305 is given also to paper board 306 in the third embodiment.
The occurrence of an interface caused due to difference in the high temperature heat contraction property and the melting point can be avoided by employing a thermosetting resin which has identical properties as the one contained in woven cloth 305 for mixed layer of thermosetting resin 310 of paper board 306. By so doing, a gap is hardly observed at the interface between paper board 306 and woven cloth 305. Thus, a sufficiently high bonding strength is ensured between paper board 306 and woven cloth 305, and the risk of peeling off with diaphragm 304 can be reduced.
It is preferred that woven cloth 305 has weave texture 311 exposed at the surface that is opposite to the surface bonded with paper board 306.
When weave texture 311 of longitudinal threads 307 and latitudinal threads 308 is exposed over the entire front surface of woven cloth 305, as illustrated in
As to the material of thermosetting resin contained in woven cloth 305, those resins which contain at least one resin among the group of phenol resin, acrylic resin, epoxy resin and vinyl ester resin may be used. These resins can be sufficiently thermo-cured at the thermo compression bonding to an increased hardness of diaphragm 304. Furthermore, a sufficiently high bonding strength can be ensured between paper board 306 and woven cloth 305.
Woven cloth 305 may be provided by using those which contain at least one fiber among the group of aramid fiber, polyester fiber, acrylic fiber, cotton fiber, carbon fiber, glass fiber and silk fiber. Such a woven cloth containing one of the fibers provides an increased strength, and the risk of breakage with woven cloth 305 can be lowered.
Now in the following, a method of manufacturing diaphragm 304 is described.
First metal mold 40 has a conical shape protruding downward, while second metal mold 41 is bowl-shaped for coupling with the conical mold. Each of these metal molds is provided with built-in heater (not shown) for heating.
First, lift first metal mold 30 upward sufficiently above second mold 31.
Referring to
On the screen of scooped paper 34 are pulp fibers which have been scooped up from a pulp solution for producing paper board 306. There is layer of paper fiber 35 on screen of scooped paper 34, which layer of paper fiber in this state is approximately 10 mm thick. It is preferred to apply a mold releasing agent on screen of scooped paper 34. Then, screen of scooped paper 34 can be easily peeled off from paper board 306 after molding is finished.
Referring to
In
Then, refer to
Next, lower first metal mold 40 down to second metal mold 41, as shown in
With woven cloth 37 and layer of paper fiber 35 kept in the compressed state, heat first metal mold 40 and second metal mold 41 to 180° C.-250° C. in order to have sheet 27 and layer of paper fiber 35 integrated by thermo-curing the thermosetting resins existing in mixed state. Diaphragm 304 as shown in
As described in the above, in a manufacturing method in accordance with the third embodiment, open gap is seldom observed at the interface between paper board 306 and woven cloth 305. Thus, a sufficient bonding strength is ensured between paper board 306 and woven cloth 305, and the risk of trouble with diaphragm can be reduced.
Diaphragm 304 manufactured in accordance with the third embodiment of the present invention exhibits a sufficiently high bonding strength between paper board 306 and woven cloth 305. Speakers which include the diaphragm have lower risk of peel-off troubles. This seems to be advantageous for improving the quality level of speakers.
A speaker diaphragm in the present invention includes a woven cloth in which an impregnated thermosetting resin is in the thermo-cured state, and a paper board integrated with the woven cloth at the back surface by thermo compression bonding. The woven cloth has a weave texture exposed at the front surface. The strength of diaphragm is high because it is made with woven cloth, and the hardness is high because it has been enhanced by taking advantage of thermo-curing of the thermosetting resin. Thus the present invention offers a diaphragm which demonstrates superior vibration characteristics in high frequency sound region, also speakers which include the diaphragm. Such speakers would find broad application fields in various kinds of acoustic apparatus.
Number | Date | Country | Kind |
---|---|---|---|
2007-182917 | Jul 2007 | JP | national |
2007-186625 | Jul 2007 | JP | national |
2007-186626 | Jul 2007 | JP | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
---|---|---|---|---|
PCT/JP2008/001851 | 7/10/2008 | WO | 00 | 1/12/2010 |