KR101770304B1 - Micro-speaker having an air adsorbent - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a micro speaker that can be used in small electronic devices and the like. More particularly, the present invention relates to a micro speaker having an air adsorbent. The micro speaker of the present invention is equipped with an air adsorbent in the enclosure, thereby improving the sound pressure, sound quality, and lifespan characteristics of the micro speaker by solving the problem that the air adsorbent prevents the vent hole while enhancing the low band by forming a virtual back volume.

Description

[0001] MICRO SPEAKER HAVING AN AIR ADSORBENT [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a micro speaker that can be used in small electronic devices and the like. More particularly, the present invention relates to a micro speaker having an air adsorbent.

The speaker is a device that generates sound by converting electric energy into mechanical energy by a voice coil existing between the voids according to Fleming's left-hand rule. In recent years, due to the increasing popularity of small electronic devices requiring a small built-in speaker including a smart phone, there is an increasing demand for a slim micro speaker of a small size.

In the case of a micro speaker, a structure for ensuring a good sound quality even in a limited space is considered because there is a limitation in the structure such as the size, the shape, and the position of the sound emitting hole. In particular, the enclosure micro speaker module is provided in an enclosure case in which the micro speaker functions as a resonance space, and the enclosure case is mounted in the electronic device. The sound generated from the micro speaker is resonated and emitted in the enclosure case, It is possible to improve the sound quality and the volume. Especially, the resonance space in the speaker is an important factor for the low frequency characteristics. The larger the resonance frequency, the better the reproduction of the low frequency range and the wider the reproduction bandwidth.

In recent years, a micro speaker having an air adsorbent has been developed to further enhance such low frequency characteristics. Zeolite or activated carbon is placed inside the enclosure to create a virtual back volume, or resonance space, using adsorption and desorption of air molecules. European Patent No. 2424270, European Patent Publication No. 2015-0358721 and US Patent No. 8687836 disclose loudspeakers with zeolites and enhanced low frequencies.

However, such conventional microspeakers with an air adsorbent have the problem that in actual use the air adsorbent is moved inside the enclosure and contaminates other components of the micro speaker. Air adsorbents such as zeolite and activated carbon are generally manufactured by powdering and then secondarily molded into granules. The granules of air adsorbent are naturally moved to other constituent parts by the use of a micro speaker, . Such contamination may degrade the performance of the micro speaker, such as affecting the shaking of the diaphragm itself, and may reduce the effect of creating a virtual back volume, especially as the air adsorbent moves away from the enclosure resonance space. In addition, the ventilation hole between the diaphragm inner space and resonance space of the micro speaker is blocked to prevent smooth air circulation, which means that the function of the resonance space is deteriorated.

1 shows a photograph of a micro speaker with a conventional air adsorbent as a result of an aging test. 1 (a) is a micro speaker having an air adsorbent before the life test, and has a speaker unit s in the enclosure 10 and a vent hole h on the rear surface of the speaker unit s (Before the air adsorbent is inserted). FIG. 1 (b) is a photograph showing a result of a long life test after inserting the air adsorbent 500, and it is possible to observe a plurality of air adsorbent granules 500 blocking the vent hole h.

FIG. 2 is a graph comparing the sound pressure level (unit: dB) of each frequency (unit: Hz) by operating the micro speaker before and after the life test of FIG. 1, It can be observed that the low-frequency sound pressure level after the test is somewhat lower than the low-frequency sound pressure level before the life test. That is, the effect of the air adsorbent, which is the strengthening of the low band, is somewhat reduced. As described above, the micro speaker having the conventional air adsorbent has a problem of performance deterioration after a certain period of use.

SUMMARY OF THE INVENTION The present invention has been made in view of the problems of the prior art, and an object of the present invention is to provide a micro speaker in which air adsorbent prevents a phenomenon in which sound pressure is reduced by blocking a ventilation hole.

Another object of the present invention is to provide a micro speaker in which the air adsorbent is prevented from flowing into other structures of a micro speaker, thereby improving durability and lifetime.

According to an aspect of the present invention, there is provided a micro speaker comprising: a vibration module including at least a vibration plate and a voice coil; A magnetic module forming an empty space and adjacent to the vibration module, the magnetic module including at least a yoke and a magnet; An enclosure accommodating the vibration module and the magnetic module therein and having a resonance space therein; A ventilation hole communicating between the resonance space and the empty space between the vibration module and the magnetic module; An air adsorbent disposed on at least one side of the resonance space and composed of a plurality of particles; And an air adsorbent inflow preventing means for preventing inflow of the air adsorbent into the vent hole.

The micro speaker according to an embodiment of the present invention is characterized in that the vent hole is formed in the yoke according to the embodiment.

The micro speaker according to an embodiment of the present invention is characterized in that the air adsorbent inflow preventing means is a shielding film in the form of a mesh.

The micro speaker according to an embodiment of the present invention is characterized in that the air adsorbent inflow preventing means is a sponge-type thinning membrane according to the embodiment.

According to an embodiment of the present invention, the enclosure includes a rear cover adjacent to the yoke, and the air adsorbent inflow preventing means includes a rib structure protruding toward the yoke from the rear cover .

According to an embodiment of the present invention, the rib structure is characterized in that the shortest distance from the yoke is greater than 0 mm and less than or equal to 0.1 mm

According to an embodiment of the present invention, the micro-speaker according to the embodiment is characterized in that the air adsorbent inflow preventing means is a binder which binds a plurality of particles of the air adsorbent by any one of mechanical, do.

The micro speaker according to an embodiment of the present invention is characterized in that the binder is a mesh-type pouch which mechanically surrounds and receives a plurality of pellets of the air adsorbent.

The micro speaker according to an embodiment of the present invention is characterized in that the binder is an adhesive material for bonding a plurality of grains of the air adsorbent to each other.

According to another aspect of the present invention, there is provided a method for inserting an air adsorbent of a micro speaker, the method comprising the steps of: providing an enclosure, a speaker unit accommodated in the enclosure and a resonance space defined between the enclosure and the resonance space, The method comprising the steps of: placing an air adsorbent in a mold frame having a shape similar to a resonance space; Applying a binder to the air adsorbent in the mold frame to bind the plurality of particles of the air adsorbent to each other; Removing the mold frame; And a step of putting an air adsorbent having a plurality of particles bound therein into an enclosure.

In the method of inserting an air adsorbent according to the present invention, the air adsorbent inserting method includes injecting an adhesive material, which is a binder, into the air adsorbent in a binding step.

delete

The micro speaker of the present invention is equipped with an air adsorbent in the enclosure, thereby improving the sound pressure, sound quality, and lifespan characteristics of the micro speaker by solving the problem that the air adsorbent prevents the vent hole while enhancing the low band by forming a virtual back volume.

FIG. 1 is a photograph of a micro speaker having a conventional air adsorbent to compare the result of aging test,
FIG. 2 is a graph of experimental data obtained by measuring and comparing changes in sound pressure level per frequency by operating a micro speaker before and after the life test of FIG. 1,
3 is a cross-sectional view showing a general structure of a conventional micro-speaker having an air adsorbent,
FIG. 4 is an exploded perspective view of the micro speaker of FIG. 3,
FIG. 5 is a partially enlarged cross-sectional view illustrating a problem that may occur in a micro speaker using a conventional air adsorbent; FIG.
6 is an exploded perspective view of a rear cover 11 of a micro speaker 1 using a conventional air adsorbent,
7 is a partially enlarged cross-sectional view of a micro speaker having an air adsorbent according to an embodiment of the present invention,
8 is a partially enlarged cross-sectional view of a micro speaker with an air adsorbent according to another embodiment of the present invention,
9 is a partially enlarged cross-sectional view of a micro speaker with an air adsorbent according to another embodiment of the present invention,
10 is a partially enlarged cross-sectional view of a micro speaker with an air adsorbent according to another embodiment of the present invention,
11A and 11B are a perspective view of a mold frame 600 used in a method of inserting an air adsorbent of a micro speaker according to an embodiment of the present invention, Sectional view,
12 is a perspective view of a frame 40 'in a micro speaker of another embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the present specification, the reference numerals in some drawings are omitted for the sake of readability of the drawings, if they are construed corresponding to the drawings or can be easily confirmed to be the same.

Fig. 3 is a cross-sectional view showing a general structure of a micro speaker having an air adsorbent according to the prior art, and Fig. 4 is an exploded perspective view (air adsorbent is omitted) of the micro speaker of Fig. The micro speaker 1 equipped with the air adsorbent includes an enclosure 10 composed of a front cover 12 and a rear cover 11. The enclosure 10 accommodates the vibration module 30 and the magnetic module 20 to be described later, and simultaneously forms a resonance space R therein. Inside the enclosure 10, there are a frame 40 which covers the top and the bottom and protects other components to be accommodated therein, and a yoke 21 which is assembled in the frame 40 and located at the rear end. On the yoke 21, an outer ring magnet (permanent magnet) 22 and an inner ring magnet (permanent magnet) 23 are attached. On the magnets 22 and 23, an outer ring top plate 24 and an inner ring top plate 25 Is attached. Generally, the yoke 21, the outer ring magnet 22, the inner ring magnet 23, the outer ring top plate 24, and the inner ring top plate 25 are collectively referred to as a magnetic module 20.

The voice coil 34 is positioned in a space between the outer ring magnet 22 and the inner ring magnet 23. [ Therefore, when an electric signal is applied to the voice coil 34, mutual electromagnetic force is generated by the magnetic circuit formed by the magnets 22 and 23 and the yoke 21, so that the voice coil 34 vibrates up and down . The center diaphragm 31 and the side diaphragm 32, which are vibrated together by the voice coil 34 to generate sound, are supported by the suspensions 33. The suspension 33 is coupled with the voice coil 34 and serves to prevent the oscillation of the diaphragms 31 and 32. The suspension 33 is formed of FPCB to generate an electrical signal between the voice coil 34 and an external terminal . Generally, the configurations of the diaphragms 31 and 32, the suspension 33, and the voice coil 34 are collectively referred to as a vibration module 30.

The protector 50 is coupled to the frame 40 and accommodates other components therein, and protects other components contained therein. The connection terminal 60 transmits an electric sound signal to the suspension 33. An air adsorbent (500) is provided on one side of the resonance space (R) inside the enclosure (10) to form a virtual back volume. A preferred material for the air adsorbent 500 is zeolite, and it is particularly preferred that it is a zeolite secondary molded in the form of a plurality of granules, i.e. granules, for convenience of handling. The magnetic module 20 and the vibration module 30 are adjacent to each other and form a space therebetween, that is, an empty space G. [ When an electric sound signal flows into the voice coil 34, the diaphragms 31 and 32 are vibrated, so that the instantaneous pressure of the empty space G changes at any time. At this time, an instantaneous pressure difference between the empty space G and the resonance space R can be eliminated by the ventilation holes (not shown) that may be provided in the yoke 21 or the frame 40, 31 and 32 can smoothly vibrate and the sound quality enhancing effect of the resonance space R and the air adsorbent 500 can be expressed. The sound is finally emitted through the sound outlet in the direction of the arrow drawn towards the front.

FIG. 5 is a partially enlarged cross-sectional view for illustrating a problem that may occur in a micro speaker using such an air adsorbent according to the related art. FIG. 6 is a cross- (Air adsorbent is omitted in the figure). The air adsorbent 500 composed of a plurality of particles can move in the resonance space R by natural use and some of them move to the ventilation holes (h in FIG. 6) And the empty space G between the vibration module 30 and the magnetic module 20 can be prevented. Of course, the vent holes h are shown as being formed in the yoke 21 of the speaker unit s in the drawings as well as the following drawings. However, if the resonance space R and the empty space G can communicate with each other, The case can be assumed sufficiently.

7 is a partially enlarged cross-sectional view of a micro speaker having an air adsorbent according to an embodiment of the present invention. According to an embodiment of the present invention, the micro speaker may include an air adsorbent inflow preventing means for preventing the inflow hole (h, not shown in the figure) of the air adsorbent 500 from being introduced. In this embodiment, the air adsorbent inflow preventing means is a shielding film 110 in the form of a mesh. The mesh-shaped shielding film 110 physically blocks the path through which the air adsorbent 500 of a plurality of grains can move to the vent hole h. Therefore, it may be formed along the side surface of the frame 40 as in this embodiment if it can perform such a role, or it may be formed so as to directly cover the vent hole h, or may be formed at other positions will be. Also, in order to perform such a role, the mesh-shaped barrier membrane 110 should preferably have a pore size smaller than the size of the pellets of the air adsorbent 500. The mesh-shaped shielding film 110 can prevent the air adsorbent 500 from flowing into the vent hole h to the empty space G without interfering with the air flow. For example, a structure similar to that of the present embodiment can be easily completed by attaching a double-sided adhesive tape (not shown) along the periphery of the side surface of the frame 40 and then attaching the mesh-shaped thin film 110 thereto.

8 is a partially enlarged cross-sectional view of a micro speaker having an air adsorbent according to another embodiment of the present invention. In this embodiment, the air adsorbent inflow preventing means is a sponge-like shroud 120. The air adsorbent 500 may be formed so as to cover the space between the yoke 21 and the rear cover 11 if the curtain 120 in the form of a spiral around the periphery of the yoke 21 is not formed. (H) (not shown in this figure) to the empty space G, while permitting the flow of air. Of course, the shroud 120 in the form of a sponge may be formed along the side surface of the frame 40, for example, as in the embodiment of FIG.

9 is a partially enlarged cross-sectional view of a micro speaker having an air adsorbent according to another embodiment of the present invention. In this embodiment, the air adsorbent inflow preventing means is a rib structure 130 that protrudes from the rear cover 11 toward the yoke 21. For example, if the rib structure 130 is formed on the rear cover 11 so as to correspond to the front edge of the yoke 21, the air adsorbent 500 may be inserted into the vent hole h of the yoke 21 Quot;). ≪ / RTI > Of course, the shortest distance between the rib structure 130 and the yoke needs to be smaller than the size of the granules of the air adsorbent 500, and it must be larger than 0 mm to allow air circulation. Since the size of granules of currently marketed zeolite granules is about 0.2 mm, the shortest distance between the rib structure 130 and the yoke 21 is preferably larger than 0 mm and smaller than or equal to 0.1 mm.

According to another embodiment of the present invention, the air adsorbent inflow preventing means may be a binder which binds a plurality of grains of the air adsorbent 500 mechanically or chemically or by a method of adhesion (including adhesion) have. That is, the binder here means a means for binding particles together in various ways.

For example, as shown in FIG. 10, the binder may be a mesh-shaped pouch 140 that mechanically envelopes and accommodates a plurality of particles of the air adsorbent 500. Of course, in order to perform this role, the mesh-shaped pouch 140 should preferably have a smaller pore size than the size of the pellets of the air adsorbent 500. Alternatively, the binder may be an adhesive material (not shown) that adheres (includes adhesion) a plurality of particles of the air adsorbent to each other, depending on the embodiment. By using a binder as the air adsorbent inflow preventing means, the air adsorbent 500 can be made into one or a plurality of sufficiently large sized lumps, and thus can be used in other spaces inside the micro speaker, particularly in the ventilation holes h It can prevent movement and still allow air flow between spaces.

11 (a) is a perspective view of a mold frame 600 that can be used in the present method, and FIG. 11 (b) is a perspective view showing the air adsorbent 500 ) Is a cross-sectional view schematically showing an embodiment of the method in steps. The method of inserting an air adsorbent of a micro speaker according to an embodiment of the present invention is characterized in that an air adsorbent (500) is inserted into a mold frame (600) similar in shape to the resonance space (R) 500) may be inserted. A step (s2) of binding a plurality of particles of the air adsorbent 500 by applying a binder to the air adsorbent 500 in the mold frame 600 by spraying an adhesive material, and a step (s2) of binding the air adsorbent 500 (S3) to remove the mold frame 600 to extract the mold frame 600 from the mold frame. In addition, it may include the step of putting the air adsorbent 500, which is not shown in the figure, but in which a plurality of particles are bound, on the resonance space R of the enclosure. The air adsorbent 500 is bound to the air adsorbent 500 through the binder to prevent the air adsorbent 500 from moving to another space inside the micro speaker by the method of the above embodiment.

12 shows a frame 40 'in a micro speaker of another embodiment of the present invention and includes a plurality of vent holes (not shown) for opening in various directions on side surfaces of the frame 40' h). By forming the ventilation holes h so as to open in various directions on the side surface of the frame 40 ', the resonance space R and the magnetic resonance space H are formed in the resonance space R in spite of the inflow of the air adsorbent 500 into the ventilation holes h. The empty space G between the module 20 and the vibration module 30 and the air flow are not blocked.

As can be seen from the above description, the present invention suggests various solutions to the problem of life shortening due to the movement of the air adsorbent, which has not been attempted in the prior art. It is to be understood that the above description is intended to assist the understanding of the practice of the present invention, and the scope of the present invention is not limited to the specific embodiments described above.

1: Micro speaker 10: Enclosure
11: Rear cover 12: Front cover
20: magnetic module and 21: yoke
22: outer ring magnet 23: inner ring magnet
24: Outer ring top plate 25: Inner ring top plate
30: vibration module 31: center diaphragm
32: side diaphragm 33: suspension
34: voice coil 40: frame
50: Protector 60: Connection terminal
s: Speaker unit h: Ventilation hole
R: resonance space G: empty space
500: air adsorbent 600: mold frame

Claims (11)

delete delete delete delete delete delete delete delete A method of inserting an air adsorbent in a micro speaker, the air absorber comprising at least one resonator space defined between an enclosure and a speaker unit accommodated therein and a resonance space formed between the resonator space and the resonator space,
Placing an air adsorbent in a mold frame having a shape similar to the resonance space;
Applying a binder to the air adsorbent in the mold frame to bind the plurality of particles of the air adsorbent to each other;
Removing the mold frame;
A method of inserting an air adsorbent in a micro speaker, comprising the steps of: placing an air adsorbent having a plurality of particles bound therein in an enclosure. 10. The method of claim 9,
Wherein the air adsorbent inserting method comprises injecting an adhesive material as a binder to the air adsorbent in the binding step. A micro speaker comprising an air adsorbent by the method of inserting air adsorbent according to claim 9 or 10.

Images