JP2013128163A - Speaker - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a speaker which reduces a rolling phenomenon while inhibiting the minimum resonance frequency from raising and enables easy assembly.SOLUTION: A speaker 1 comprises an outer periphery support medium 20 formed by injection molding. The outer periphery support medium 20 comprises: an outer periphery part 21 fixed to an outer periphery part 12 of a frame part 10; an inner periphery part 22 fixed to a diaphragm 2; and multiple crosslink parts 23 connecting the outer periphery part 21 with the inner periphery part 22 and having flexibility in a vibration direction of the diaphragm 2. The outer periphery support medium 20 is attached from the front surface side of the speaker 1 after all components of the speaker 1, excluding the outer periphery support medium 20, are incorporated into the speaker 1. The outer periphery support medium 20 is attached to a frame part 10 with the outer periphery part 21 using a step part 13 provided at the outer periphery part 12 of the frame part 10 as a guide. The inner periphery part 22 is attached to a position of the diaphragm 2 that is separated from an outer periphery end edge part 2a to which an edge 3 is attached.

Description

  The present invention relates to a speaker, and more particularly to a speaker in which the occurrence of a rolling phenomenon is suppressed.

  In general, the cause of the rolling phenomenon of the speaker is, for example, non-uniformity of the mass of the diaphragm, non-uniformity of the edge or damper support member, or non-uniform magnetic gap (magnetic gap) of the magnetic circuit. For example, the magnetic flux is not uniform due to the existence of the magnetic flux. When the rolling phenomenon occurs in the speaker, not only the input resistance performance of the speaker is lowered, but a voice coil connected to the center portion of the diaphragm may come into contact with the magnetic circuit. When the voice coil comes into contact with the magnetic circuit, abnormal noise may be generated, or the voice coil may be disconnected and the speaker may not function.

  As a speaker for which the occurrence of the rolling phenomenon has been tried to be suppressed, an edge that supports an outer periphery of a diaphragm is combined with an edge having a shape different from a normal shape.

  For example, in Patent Document 1 below, a portion of an elongated diaphragm that is in contact with a linear outer periphery is held by an edge of a cylindrical cross section, and a portion that is in contact with a curved outer periphery is held by an edge of a U-shaped cross section. A structure is disclosed. In this speaker, the rolling phenomenon is suppressed without increasing the stiffness of the entire edge or increasing the minimum resonance frequency.

  In Patent Document 2 below, in order to prevent the occurrence of a rolling phenomenon, the entire outer periphery of the elongated diaphragm is held by a convex edge having a convex cross section, and a part of the edge has a concave cross section. A speaker structure provided with a concave edge is disclosed.

  Patent Document 3 below discloses a double-edge speaker structure having a double edge portion of a roll-type edge and a waveform edge. In this speaker, by providing a plurality of through holes in any one edge of the edge portion, it is intended to improve the sound pressure characteristics of the speaker while preventing the rolling phenomenon.

JP-A-8-102992 JP 2008-104057 A JP 55-46649 A

  By the way, the speaker as described in the above-mentioned patent documents 1 to 3 has a double structure at least a part of the edge that supports the diaphragm. Therefore, such a speaker may cause a problem that the frequency characteristics of the speaker deteriorate. Further, there is a possibility that the movement of the upper and lower edges of the double structure portion does not meet and promotes the rolling phenomenon, or the noise between the edges is generated due to resonance between the edges.

  Further, in the case of using such a double-structured edge, in order to lower the lowest resonance frequency of the speaker, it is necessary to soften both edges so that the edge stiffness does not increase. . However, if both edges are softened, the edge itself is kinked or bent before the edge is attached to the speaker, and the shape is likely to change. As described above, when the edge is not stable in shape, it is difficult to manufacture the speaker. Further, when the edge has a double structure, the number of work steps is increased in the production process of the diaphragm and the production process of the speaker, and high assembly accuracy is required, which makes it difficult to manufacture the speaker. If the manufacture of the speaker is difficult, the manufacturing cost of the speaker increases, and the defect rate tends to increase.

  The present invention has been made to solve such problems, and an object of the present invention is to provide a speaker that can reduce the rolling phenomenon while suppressing an increase in the minimum resonance frequency and can be easily assembled. .

  In order to achieve the above object, according to one aspect of the present invention, a speaker is attached to a frame part, a diaphragm supported by the frame part via an edge, a voice coil bobbin fixed to the diaphragm, and a voice coil bobbin. Provided with a voice coil, a magnetic circuit that vibrates the diaphragm by applying magnetic flux to the voice coil, and an outer peripheral support disposed in front of the diaphragm in the amplitude direction. The outer peripheral support is fixed to the frame portion. Of the diaphragm, an inner peripheral part fixed to a part of the diaphragm away from the outer peripheral edge of the diaphragm, and the outer peripheral part and the inner peripheral part, respectively. And a plurality of bridging portions that connect a part of the inner peripheral portion, and the bridging portion is flexible so that the portion connected to the inner peripheral portion can be displaced in the amplitude direction of the diaphragm with respect to the outer peripheral portion. Have.

  Preferably, the bridging portion has a leaf spring shape.

  Preferably, the bridge portion has a smaller thickness in the amplitude direction of the diaphragm than each of the outer peripheral portion and the inner peripheral portion.

  Preferably, at least one of the outer peripheral portion and the inner peripheral portion is formed in a substantially annular shape.

  Preferably, the bridging portion has a wave shape that undulates in the amplitude direction of the diaphragm from a portion connected to the outer peripheral portion toward a portion connected to the inner peripheral portion.

  Preferably, the diaphragm has a substantially circular outer peripheral shape, and three or more bridging portions are provided, and each bridging portion is substantially equal in a circumferential direction centering on a central portion of the diaphragm. Arranged at intervals.

  Preferably, the diaphragm has an outer peripheral shape of any one of a substantially elliptical shape, a substantially track shape, and a substantially rectangular shape, and the plurality of bridging portions are diaphragms as viewed from the front in the amplitude direction of the diaphragm. Are arranged so as to be substantially symmetric with respect to a straight line that is substantially parallel to the longitudinal direction of the diaphragm.

  Preferably, the outer peripheral support is formed by injection molding using a thermoplastic resin.

  According to these inventions, the integrally formed outer peripheral support is attached to the frame portion and a portion of the front surface of the diaphragm away from the outer peripheral edge portion, and the frame is interposed via the flexible bridging portion. And the diaphragm are connected. Therefore, the rolling phenomenon can be reduced while suppressing the increase in the minimum resonance frequency, and a speaker that can be easily assembled can be provided.

It is a front view of the speaker in the 1st Embodiment of this invention. It is the sectional view on the AA line of FIG. FIG. 3 is a partially enlarged view of FIG. 2. It is a perspective view explaining an example of the attachment process of an outer periphery support body. It is a front view which shows the speaker in 2nd Embodiment. It is a front view which shows the speaker in 3rd Embodiment.

  The speaker according to the embodiment of the present invention will be described below.

  [First Embodiment]

  FIG. 1 is a front view of the speaker according to the first embodiment of the present invention. 2 is a cross-sectional view taken along line AA in FIG. FIG. 3 is a partially enlarged view of FIG.

  As shown in FIG. 1, the speaker 1 roughly includes a diaphragm 2, an edge 3, a cap 4, and an outer peripheral support 20. As shown in FIG. 2, the frame portion 10, the voice coil 5 attached to the diaphragm 2, and the frame portion 10 are attached to the back side (rear side; lower side in FIG. 2) of the diaphragm 2. The magnetic circuit 15 is disposed. The speaker 1 is formed in a substantially circular shape as a whole when viewed from the front, and the diaphragm 2 is also substantially circular. The speaker 1 is a cone type with a voice coil 5 attached to the center side of the diaphragm 2 and is thin.

  As shown in FIG. 2, the frame part 10 has a dish shape. A hole 11 is formed at the center of the frame 10. The hole 11 is substantially circular when viewed from the front. An opening 19 is formed in a part of the back surface of the frame portion 10.

  The magnetic circuit 15 is configured by overlapping a pot yoke 16, a magnet 17, and a pole piece 18. The magnetic circuit 15 is of an inner magnet type. In the magnetic circuit 15, a magnetic gap 15 a is formed between the pot yoke 16 and the pole piece 18. The magnetic circuit 15 is held by the frame unit 10 with the pot yoke 16 fitted in the hole 11 of the frame unit 10.

  The diaphragm 2 has a dish shape. The diaphragm 2 is formed in a shape such that the center portion rises to the front side rather than the outer peripheral edge 2a. A substantially circular hole 2 b is formed at the center of the diaphragm 2. A front end portion of a cylindrical voice coil 5 is attached to a portion of the diaphragm 2 near the hole 2b. The voice coil 5 is provided so as to protrude to the back side of the diaphragm 2. The hole 2 b is closed by the cap 4. The cap 4 is attached from the front side of the speaker 1. As shown in FIG. 1, for example, four recesses 2 h are formed around the hole 2 b in the diaphragm 2. The recess 2h is formed so as to be recessed from the front surface of the diaphragm 2 toward the back.

  The diaphragm 2 is supported by the frame portion 10 via the edge 3. In other words, a cone paper portion composed of the diaphragm 2 and the edge 3 is attached to the frame portion 10 from the front side. As shown in FIG. 3, the edge 3 has a concave cross section that is recessed on the back side, and its inner peripheral portion is bonded to the outer peripheral portion of the diaphragm 2 so as to surround the periphery of the diaphragm 2. Yes. The edge 3 is attached to the frame portion 10 by bonding the outer peripheral portion thereof to the inner end edge portion 14 (shown in FIG. 3) of the front end portion of the outer peripheral portion 12 of the frame portion 10.

  The voice coil 5 has a cylindrical voice coil bobbin 5a and a winding 5b attached to the lower end thereof. The winding 5b is located in the magnetic gap 15a. A lead wire (not shown) is connected to the lead wire of the winding 5b of the voice coil 5. The winding 5b is connected to a terminal (not shown) to which a signal is input from the outside via a tinsel wire.

  The outer peripheral support 20 is disposed on the front side of the diaphragm 2, that is, in front of the amplitude direction. The outer peripheral support 20 includes an annular outer peripheral portion 21, an annular inner peripheral portion 22, and eight bridging portions 23 (23a to 23h). The outer peripheral support 20 is integrally formed. The outer peripheral support 20 is formed by injection molding using, for example, a thermoplastic resin.

  As shown in FIG. 1, the eight bridging portions 23 are arranged at substantially equal intervals in the circumferential direction centered on the central portion of the diaphragm 2, that is, the central portion of the speaker 1 as viewed from the front surface of the speaker 1. ing. The bridging portion 23 is disposed at positions of 0 degrees, 45 degrees, 90 degrees, 135 degrees, 180 degrees, 225 degrees, 270 degrees, and 315 degrees with respect to the center of the speaker 1 as viewed from the front of the speaker 1. Has been. Each bridging portion 23 connects a part of the outer peripheral part 21 and a part of the inner peripheral part 22. That is, the outer peripheral portion 21 and the inner peripheral portion 22 are connected to each other through the eight bridging portions 23.

  Each bridging portion 23 has a predetermined width when viewed from the front side of the speaker 1. The bridging portion 23 is formed such that the longitudinal direction of the bridging portion 23 coincides with a straight line passing through the center portion of the speaker 1 from a portion 21a connected to the outer peripheral portion 21 to a portion 22a connected to the inner peripheral portion 22 in front view. ing. The bridging portion 23 is formed in a band shape having a dimension in the thickness direction smaller than a dimension in the width direction. That is, the bridging portion 23 has a leaf spring shape and is flexible. Since the eight leaf spring-shaped bridging portions 23 are arranged in this manner, the bridging portion 23 has a portion 22 a connected to the inner peripheral portion 22 and a portion 21 a connected to the outer peripheral portion 21 before and after the speaker 1. It can be displaced in the direction (amplitude direction of the diaphragm 2).

  As shown in FIG. 3, the outer peripheral portion 21 of the outer peripheral support 20 is fixed to the frame portion 10. A step portion 13 is formed at the front end portion of the outer peripheral portion 12 of the frame portion 10 so that the height is lowered one step backward (downward in the drawing) from the front end face of the outer peripheral portion 12. The step portion 13 is formed over the entire circumference of the outer peripheral portion 12 of the frame portion 10. The outer peripheral portion 21 is bonded to the step portion 13. The outer peripheral support 20 is attached using the stepped portion 13 as a guide so that the outer peripheral portion 21 is fitted into the stepped portion 13. Thereby, the outer peripheral support body 20 is bonded and fixed to the frame portion 10 in a state of being positioned with respect to the frame portion 10.

  The inner peripheral portion 22 of the outer peripheral support 20 is fixed to a portion of the front surface of the diaphragm 2 away from the portion where the edge 3 is attached, that is, a portion away from the outer peripheral edge 2a of the diaphragm 2. Yes. As shown in FIG. 3, the inner peripheral portion 22 is bonded and fixed to a portion that is separated from the outer peripheral edge 2a by a distance d1.

  In addition, the position where the inner peripheral portion 22 is attached depends on the shape of the diaphragm 2, the shape of the edge 3, and the like in consideration of various balances so that the diaphragm 2 operates more appropriately. What is necessary is just to be determined in the position away from 2a.

  In the present embodiment, as shown in FIG. 3, the thickness t <b> 1 of the bridging portion 23 in the amplitude direction (vertical direction in the drawing) is the thickness t <b> 2 of the inner peripheral portion 22 in the amplitude direction or the amplitude direction of the outer peripheral portion 21. It is smaller than the thickness t3 (the bridging portion 23 is formed thinner than the outer peripheral portion 21 and the inner peripheral portion 22). Thereby, when the diaphragm 2 is displaced in the amplitude direction, the bridging portion 23 is easily displaced in the amplitude direction, and unintended parts (such as the outer peripheral portion 21 and the inner peripheral portion 22) are not easily displaced. Since the rigidity of the outer periphery support body 20 becomes high as a whole, it becomes easier to manufacture the outer periphery support body 20. Moreover, handling of the outer periphery support body 20 and assembly of the outer periphery support body 20 can be easily performed in the assembly process of the speaker 1.

  In the present embodiment, the bridging portion 23 has a waveform shape that undulates in the amplitude direction of the diaphragm 2 from the portion 21 a connected to the outer peripheral portion 21 toward the portion 22 a connected to the inner peripheral portion 22. Thereby, the bridging portion 23 is more easily bent in the amplitude direction of the diaphragm 2. Therefore, the minimum resonance frequency of the speaker 1 can be prevented from becoming high.

  Note that the number, location, width, thickness, shape, and the like of the bridging portion 23 are desirably set so as to eliminate non-uniformity in the vibration system of the speaker 1. Further, it is desirable that these are set taking into consideration that the non-uniformity in the vibration system of the speaker 1 does not deteriorate. For example, the width of the bridging portion 23 may be determined from a target value such as the lowest resonance frequency while the thickness of the bridging portion 23 is smaller than that of the outer peripheral portion 21 and the inner peripheral portion 22.

  FIG. 4 is a perspective view for explaining an example of the attaching process of the outer peripheral support 20.

  As shown in FIG. 4, the outer peripheral support 20 is attached from the front side of the speaker 1 after assembling all the components of the speaker 1 except for the outer peripheral support 20. At this time, an adhesive is applied to the outer peripheral portion 12 and the diaphragm 2 of the speaker 1, and the outer peripheral support 20 is disposed on the frame portion 10 and the diaphragm 2, so that the outer peripheral support 20 is attached to the speaker 1. Attached. Note that the method of attaching the outer peripheral support 20 is not limited to this, and the outer peripheral support 20 may be attached in any manner as long as the diaphragm 2 is joined to the frame portion 10. .

  When the diaphragm 2 and the cap 4 are separate bodies as in the present embodiment, before removing the positioning jig attached to the speaker 1 for positioning the voice coil 5 from the speaker 1, The outer peripheral support 20 may be attached to the frame portion 10. In this case, after attaching the outer peripheral support 20 to the speaker 1, the positioning jig for the voice coil 5 is removed from the speaker 1, and the cap 4 is attached to the diaphragm 2 so as to close the hole 2 b of the diaphragm 2. Good.

  As described above, in the present embodiment, the speaker 1 includes the outer peripheral support 20. The outer peripheral support 20 connects the outer peripheral part 21 fixed to the frame part 10 and the inner peripheral part 22 fixed to a part of the diaphragm 2 away from the outer peripheral edge 2a, and the amplitude direction of the diaphragm 2 And a plurality of bridging portions 23 having flexibility. The outer peripheral support 20 is independent of the edge 3 and can be attached so that the movement of each other is not affected. Therefore, it is possible to suppress the occurrence of the rolling phenomenon while suppressing the increase in the lowest resonance frequency of the speaker 1 without increasing the stiffness of the edge 3. In the outer peripheral support 20, the bridging portion 23 is provided only partially. Therefore, since a sealed space is not provided between the edges 3, there is no possibility that the resonance of the air at the edge 3 portion or the like seen in the conventional case occurs.

  The above effect can be obtained without softening the hardness of the edge 3 so much. Therefore, when manufacturing the speaker 1, the edge 3 having a stable shape can be used, and the edge 3 can be easily handled. Thereby, since the edge 3 can be easily attached to the diaphragm 2 or the frame portion 10, the speaker 1 can be easily assembled. Moreover, the defective rate at the time of manufacture of the speaker 1 can also be reduced.

  Since the outer peripheral part 21 of the outer peripheral support 20 is attached to the frame part 10 with the step part 13 as a guide, the position of the outer peripheral support 20 with respect to the frame part 10 is reliably and easily positioned. Therefore, the speaker 1 can be assembled more easily. In addition, after the diaphragm 2 is attached to the frame part 10, the inner peripheral part 22 of the outer peripheral support 20 and the diaphragm 2 can be joined. Therefore, the precision of the attachment position of the inner peripheral part 22 and the diaphragm 2 can be improved easily, and joining can be performed easily. Since the work of attaching the outer peripheral support 20 can be performed from the front side of the speaker 1, the work can be easily performed.

  The outer peripheral support 20 is integrally formed by injection molding using a thermoplastic resin. The outer peripheral support 20 has a small stiffness as a constituent element of the speaker 1 and has a certain degree of rigidity when used alone. Therefore, in the manufacturing process of the speaker 1, the outer peripheral support 20 can be easily manufactured and handled, and the speaker 1 can be easily manufactured.

  In the present embodiment, there is not provided a damper for connecting the frame portion and the voice coil to support the movable portion as the cone-type speaker having the conventional structure has. Therefore, the configuration of the speaker 1 is simplified. Note that the speaker 1 may or may not have a damper. The damper may be appropriately provided according to the degree to which the support function of the diaphragm 2 obtained by providing the outer peripheral support 20 is enhanced, the degree of performance required for each type of speaker 1, and the like. That's fine.

  [Second Embodiment]

  Since the basic configuration of the speaker in the second embodiment is the same as that in the first embodiment, description thereof will not be repeated. In the second embodiment, the number and shape of the bridging portions of the outer peripheral support are different from those of the first embodiment.

  FIG. 5 is a front view showing a speaker according to the second embodiment.

  Referring to FIG. 5, the speaker 101 is different from the speaker 1 of the first embodiment in that an outer peripheral support 120 is provided instead of the outer peripheral support 20. The outer periphery support body 120 has the outer periphery part 21, the inner periphery part 22, and four bridge | crosslinking parts 123 (123a-123d) from which the shape differs from the thing of the outer periphery support body 20 of 1st Embodiment. Yes.

  The four bridging portions 123 are arranged at substantially equal intervals in the circumferential direction around the central portion of the diaphragm 2 when viewed from the front. In other words, the bridging portion 123 is disposed at positions of 0 degrees, 90 degrees, 180 degrees, and 270 degrees with the central portion of the speaker 1 as the center in a front view.

  In the second embodiment, each bridging portion 123 does not undulate so much in the amplitude direction of the diaphragm 2 and has a non-corrugated shape. Most parts including the center part of each bridge | bridging part 123 have the circular arc shape centering on the center part of the diaphragm 2 by front view. The bridging portion 123 is connected to the outer peripheral portion 21 and the inner peripheral portion 22 at both ends of the arc-shaped portion. That is, for each bridging portion 123, the portion 22 a connected to the inner peripheral portion 22 is located away from the portion of the inner peripheral portion 22 that is closest to the portion 21 a connected to the outer peripheral portion 21.

  Since the bridging portion 123 is formed in this manner, the bridging portion 123 has a long length, and the bridging portion 123 is flexible in the amplitude direction of the diaphragm 2. The four bridging portions 123 are provided at substantially equal intervals. Accordingly, the inner peripheral portion 22 can be displaced in the amplitude direction of the diaphragm 2 with respect to the outer peripheral portion 21.

  In the second embodiment, since the bridging portion 123 is formed in a long leaf spring shape in this way, the occurrence of the rolling phenomenon is effectively suppressed while maintaining the lowest resonance frequency low. For example, the same effects as those of the first embodiment can be obtained.

  [Third Embodiment]

  Since the basic configuration of the speaker in the third embodiment is the same as that in the first embodiment, description thereof will not be repeated. The third embodiment is different from the first embodiment in that the speaker has a substantially track shape.

  Here, the track shape refers to a shape in which two semicircular arcs having the same length are connected by two line segments having the same length, and a shape similar to that is also included. When the line segment is somewhat long, the longitudinal direction of the track-shaped diaphragm is parallel to the line segment.

  FIG. 6 is a front view showing a speaker according to the third embodiment.

  As shown in FIG. 6, in the third embodiment, the speaker 201 has a substantially track shape when viewed from the front. That is, the speaker 201 has a diaphragm 202 having a substantially track-shaped outer periphery. Similarly to the diaphragm 202, the edge 203 and the frame portion (not shown) of the speaker 201 are also configured in a substantially track shape. In the speaker 201 shown in FIG. 6, the longitudinal direction of the diaphragm 2 is the vertical direction in FIG.

  The speaker 201 has the outer periphery support body 220 similarly to the speaker 1 according to the first embodiment. The outer peripheral support 220 has an annular outer peripheral portion 221 and an inner peripheral portion 222 that are formed in a substantially track shape similar to the shape of the speaker 201. The outer peripheral portion 221 and the inner peripheral portion 222 are connected to each other through 16 bridging portions 223. Each bridging portion 223 has the same corrugated leaf spring shape as the bridging portion 23 of the outer peripheral support 20 in the first embodiment.

  In the third embodiment, the 16 bridging portions 223 are straight lines that are seen from the front in the amplitude direction of the diaphragm 202, that is, in front view, pass through the center of the diaphragm 202 and parallel to the longitudinal direction of the diaphragm 202. (Hereinafter, this straight line may be referred to as a major axis) is arranged so as to be substantially symmetric. That is, one bridging portion 223 is arranged at each of the uppermost and lowermost portions in FIG. 6 and located on the long axis. Further, seven bridging portions 223 are arranged on the left and right sides in FIG. 6 symmetrically with respect to the long axis.

  By configuring the outer peripheral support body 220 in this manner, the inner peripheral portion 222 of the outer peripheral support body 220 can be displaced in the amplitude direction of the diaphragm 202 with respect to the outer peripheral portion 221. Also in the third embodiment, since the speaker 201 has such a configuration, it is possible to effectively suppress the occurrence of the rolling phenomenon while maintaining the lowest resonance frequency low. The same effects as those of the embodiment can be obtained. In addition, since the sixteen bridging portions 223 are provided symmetrically with respect to the major axis, the inner peripheral portion 222 of the outer peripheral support 220 is reliably displaced in the amplitude direction of the diaphragm 202. Therefore, the occurrence of the rolling phenomenon is more reliably suppressed.

  Such a configuration is not limited to one having a substantially track-shaped diaphragm, and the same configuration can be applied to a speaker having a substantially elliptical diaphragm or a speaker having a substantially rectangular diaphragm. it can. That is, for example, in the outer peripheral support body of these speakers, the plurality of bridging portions are arranged so as to be symmetric with respect to the major axis passing through the center portion of the diaphragm and substantially parallel to the longitudinal direction of the diaphragm in a front view. It only has to be. Thereby, like the above-mentioned, generation | occurrence | production of a rolling phenomenon can be suppressed more reliably.

  [Others]

  A speaker may be configured by appropriately combining the feature points in the above embodiments. Thereby, it is possible to effectively suppress the occurrence of the rolling phenomenon while suppressing an increase in the minimum resonance frequency.

  The number and position of the cross-linked portions may be determined as appropriate, but from the viewpoint of preventing the rolling phenomenon, for example, the following may be performed. For a speaker having a circular diaphragm, the bridging portions may be arranged at three or more positions at uniform angular positions, that is, at substantially equal intervals. In addition, for a speaker having a diaphragm having a track shape, an elliptical shape, or a substantially rectangular shape, the bridging portion is a vibration plate that passes through the center portion of the diaphragm in a front view, at a position that supports both sides in the longitudinal direction of the diaphragm. A plurality of them may be arranged at positions symmetrical with respect to a straight line extending in the longitudinal direction.

  The shape and material of the cap can be selected as appropriate and are not limited to a specific one. The cap may be configured integrally with the diaphragm. The magnetic circuit may be an outer magnet type.

  The shape of the frame portion is not limited to the above-described one, and it may be formed in a shape that suits the purpose of the speaker each time. The shape and material of the cone paper, that is, the edge and the diaphragm are not limited to specific ones.

  The outer peripheral support is not limited to one formed using a thermoplastic resin, but may be formed using an elastic material so that the shape of the outer peripheral support itself is stable.

  The outer peripheral support body should just be comprised so that it may respond | correspond to the shape of the diaphragm and frame part about the speaker which has a diaphragm and frame part of various shapes. The shape of the outer peripheral part of the outer peripheral support and the attachment structure to the frame part can be selected as appropriate. The inner peripheral portion of the outer peripheral support may be attached to a position where the vibration balance of the diaphragm is improved or a position where the diaphragm can be reinforced, according to the shape of the diaphragm or the edge. Only one of the outer peripheral portion and the inner peripheral portion may be formed in an annular shape. Since at least one of the outer peripheral portion and the inner peripheral portion is formed in an annular shape, the outer peripheral support becomes difficult to deform during manufacture of the speaker, and the speaker can be easily assembled. In addition, neither the outer peripheral part or the inner peripheral part may be formed in an annular shape.

  Moreover, the inner peripheral part of an outer peripheral support body is not restricted to what is attached to the front surface of a diaphragm. For example, the inner peripheral part of the outer peripheral support is fixed at a position away from the outer peripheral edge of the diaphragm to which the edge is attached, from the rear side of the diaphragm, and hidden from the front of the speaker. You may do it. Even in this case, as described above, while suppressing the rise of the minimum resonance frequency, it is possible to effectively suppress the occurrence of the rolling phenomenon and the effect that the speaker can be easily assembled. be able to.

  The form of the speaker is not limited to the speaker unit having a shallow depth as in the above embodiments. For example, the configuration having the outer peripheral support as described above can also be applied to a cone-type speaker unit having a diaphragm whose depth increases from the outer peripheral edge to the center.

  The above embodiment should be considered as illustrative in all points and not restrictive. The scope of the present invention is defined by the terms of the claims, rather than the description above, and is intended to include any modifications within the scope and meaning equivalent to the terms of the claims.

DESCRIPTION OF SYMBOLS 1,101,201 Speaker 2,202 Diaphragm 2a Outer peripheral edge part 3,203 Edge 4 Cap 5 Voice coil 5b Winding 10 Frame part 12 Outer part of frame part 13 Step part 15 Magnetic circuit 20, 120, 220 Outer periphery support Body 21, 221 Outer peripheral portion 21a Site connected to outer peripheral portion of bridging portion 22,222 Inner peripheral portion 22a Site connected to inner peripheral portion of bridging portion 23 (23a-23h), 123 (123a-123d), 223 bridging portion t1 bridging Thickness in the amplitude direction of the portion t2 Thickness in the amplitude direction of the inner peripheral portion t3 Thickness in the amplitude direction of the outer peripheral portion

Claims (8)

A frame part;
A diaphragm supported by the frame part via an edge;
A voice coil bobbin fixed to the diaphragm;
A voice coil attached to the voice coil bobbin;
A magnetic circuit that vibrates the diaphragm by applying magnetic flux to the voice coil;
An outer peripheral support disposed in front of the diaphragm in the amplitude direction,
The outer peripheral support is
An outer peripheral portion fixed to the frame portion;
An inner peripheral portion fixed to a portion of the diaphragm away from an outer peripheral edge of the diaphragm; and
Each formed integrally with the outer peripheral portion and the inner peripheral portion, and having a plurality of bridging portions connecting a part of the outer peripheral portion and a part of the inner peripheral portion;
The bridging portion is a speaker having flexibility such that a portion connected to the inner peripheral portion can be displaced in the amplitude direction of the diaphragm with respect to the outer peripheral portion.   The speaker according to claim 1, wherein the bridging portion has a leaf spring shape.   The speaker according to claim 1, wherein the bridging portion has a smaller thickness in the amplitude direction of the diaphragm than each of the outer peripheral portion and the inner peripheral portion.   The speaker according to any one of claims 1 to 3, wherein at least one of the outer peripheral portion and the inner peripheral portion is formed in a substantially annular shape.   5. The bridge according to claim 1, wherein the bridging portion has a wave shape that undulates in an amplitude direction of the diaphragm from a portion connected to the outer peripheral portion toward a portion connected to the inner peripheral portion. The speaker described. The diaphragm has a substantially circular outer peripheral shape,
The cross-linking portion is provided in three or more, and each of the cross-linking portions is arranged at substantially equal intervals in a circumferential direction centering on a central portion of the diaphragm. The speaker according to claim 1. The diaphragm has any one outer shape of a substantially oval shape, a substantially track shape, and a substantially rectangular shape,
The plurality of bridging portions are arranged so as to be substantially symmetric with respect to a straight line that passes through a central portion of the diaphragm and is substantially parallel to a longitudinal direction of the diaphragm as viewed from the front in the amplitude direction of the diaphragm. Item 6. The speaker according to any one of Items 1 to 5.   The speaker according to claim 1, wherein the outer peripheral support is molded by injection molding using a thermoplastic resin.

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