KR101353590B1 - A diaphragm for speaker made of one polymer film with different stiffness - Google Patents

Abstract

The present invention relates to a diaphragm for a speaker in which a central portion and an edge portion are integrally formed simultaneously into a crystalline structure and an amorphous structure by using a polymer film capable of having both an amorphous and a crystalline structure. An area of the polymer film (hereinafter referred to as a first film region) that includes a polymer film and is formed in a crystalline structure is formed into a crystalline structure, and an area of the polymer film corresponding to the edge portion (hereinafter referred to as a second film region) is amorphous. Provide a configuration to be molded into a structure.
According to the diaphragm for the speaker as described above, it is possible to reproduce the sound with high quality by configuring the stiffness (differential stiffness) of the center portion and the edge portion, and to reduce the defect rate such as manufacturing deviation and improve the quality by eliminating the adhesive portion by integrally forming the center portion and the edge portion You can.

Description

A diaphragm for speaker made of one polymer film with different stiffness}

The present invention relates to a diaphragm for a speaker which is integrally formed at the same time into a crystalline structure and an amorphous structure by using a polymer film that can have both amorphous and crystalline structures.

In general, an electro-acoustic transducer applying a diaphragm made of a film material is mainly a small full range speaker, headphones, earphones, a micro speaker applied to a small terminal (cell phone), and the like. Micro speaker is a speaker that is applied to small electronic devices such as mobile phones and laptops. Since it is spatially restricted, it is severely limited in design, and in general, it can produce sound quality such as bass and treble at the same time. It is much lower than the speaker.

The diaphragm, which occupies the largest portion of the sound quality of the parts of the micro speaker, has been mainstream in the past, an integrated molded product in which the center part and the edge part are integrated using an engineering plastic film in consideration of the efficiency and heat resistance of the speaker. Such a diaphragm is formed by pressing a single film to form a center and an edge portion of the same material and the same thickness.

The engineering plastic film mainly used here is polyimide (PI), polyamideimide (PAI), polyetherimide (PEI), polyethylene naphthalate (PEN), polyethylene terephthalate (PET), polyether ether ketone (PEEK) ) And so on.

In addition, because the micro-speaker should be small in size, a light and flexible thin plate diaphragm is used to increase the efficiency of the diaphragm.

1 is a schematic view showing a diaphragm of a conventional micro speaker, and a conventional micro speaker includes a diaphragm center portion 101 of a thin plate formed integrally, and an edge portion 102 integrally extending with both sides of the diaphragm center portion 101. The diaphragm fixing part 104 is extended to both sides of the edge part 102 and adhered to the speaker frame 103, and the voice coil 105 is connected to an inner lower surface of the edge part 102.

In the micro speaker of such a structure, the voice coil 105 which received an external signal vibrates up and down, and by this vibration, the diaphragm which the voice coil is coupled in the lower surface vibrates, and sound is received by the pressure with external air. Is generated.

The edge portion 102 is formed on the outer side with the voice coil 105 as a starting point, and is responsible for the vertical linear motion of the diaphragm and the reproduction of the bass and midrange bands. In particular, it will be mainly responsible for the bass band. If at the edge portion 102, neglecting the material of the film, thick film narrows the low pass regeneration limit, and thin film makes the low pass regeneration limit wide.

The central portion 101 is formed inside the voice coil 105 as a starting point, and is responsible for the vertical linear movement of the diaphragm, high and mid-range reproduction. In particular, it will mainly be responsible for the high range. In the center portion 101, if the film material is ignored, the thin film increases the high range peak and narrows the high range regeneration limit.

On the other hand, the conventional diaphragm is molded by pressing a polymer compound of a single material in the form of a film, it is generally made of the same material and the same thickness.

 In this case, since the resonant frequency (Fs) of the diaphragm is determined according to the edge portion 102 of the diaphragm of the single polymer compound, the diaphragm is manufactured in the shape of an arch to give rigidity to the central portion 101. That is, by constructing the central portion 101 of the diaphragm in a dome shape, the rigidity is structurally reinforced. However, when the diaphragm is composed of a single film as described above, a problem arises in that the sound is greatly distorted.

Specifically, this prior art requires the use of thin films for broadening the bass band or for dense sounds in the mid or low frequencies. In addition, the prior art had to use a thick film opposite to the former, in order to reduce the peak of the high band and widen the width of the high band. Therefore, according to the prior art, either the thicker or the thinner the film, there is a problem that the choice must be made in one direction and the other must be abandoned.

In order to solve this problem, the method shown in FIG. 2 has been used in order to make the central portion 101 responsible for the treble different from the thickness of the edge portion 102. More precisely, only the central portion 101 uses a hard and thick film.

That is, as shown in FIG. 2A, a method of manufacturing the diaphragm 100 by stacking a rigid member 106 having a light weight and stiffness on the central portion 101 of the polymer compound film has been proposed. That is, by adhering the rigid member 106 to the central portion 101 with the adhesive 108, the rigidity can be increased without deforming the central portion 101 of the diaphragm 110.

Examples of the technique of laminating the rigid member in the center are described in Korean Patent No. 10-1000756 (published Dec. 13, 2010), "Integrated diaphragm for a micro speaker, a manufacturing method thereof, and a micro speaker including the diaphragm") Technology 1), [Korean Patent Publication No. 10-2009-0127069 (2009.12.09. Publication), "Dome-shaped diaphragm and a speaker using the same"] (hereinafter Prior Art 2), [Korean Patent Publication No. 10-2010-0004441 (Published Jan. 13, 2010), "Method for manufacturing a diaphragm for a micro speaker"] (hereinafter, referred to as Prior Art 3).

However, the prior art has a disadvantage in that the manufacturing process is complicated because it requires a plurality of molding, blanking, and bonding processes, such as manufacturing a polymer compound film, laminating a rigid member, and bonding the same.

In addition, as shown in FIG. 2B, after forming the central portion 101 of the polymer compound film having stiffness apart from the edge portion 102, the central portion 101 and the edge portion 102 are bonded to the adhesive 108. A method of fabricating by combining is proposed.

Examples of techniques for separately manufacturing the center and the edge portion are combined [Korean Patent No. 10-1052208 (published Jul. 29, 2011), "Smallest Speaker with Silicon Edge"] (see FIG. 4, hereinafter prior art 4) and the like. Is disclosed.

However, since the prior art has to adhere the center portion and the edge portion with the adhesive 108, a loss caused by the adhesive may occur, and a deviation may occur due to the manufacturing of the bonding. Due to this deviation, a distortion phenomenon occurs, and thus, the sound quality is degraded. This degrades the sound quality itself. In addition, the manufacturing process is complicated because it has to go through the adhesive process.

An object of the present invention is to solve the problems described above, by using a polymer film that can have both amorphous and crystalline structure, simultaneously forming the central portion and the edge portion integrally into a crystalline structure and an amorphous structure, respectively It is to provide a diaphragm for the speaker.

In order to achieve the above object, the present invention relates to a diaphragm for a speaker, comprising a polymer film integrally formed with a central portion and an edge portion, and a region of a polymer film including a region corresponding to the central portion (hereinafter referred to as a first film region). And, the remaining region (hereinafter referred to as the second film region) of the polymer film except the first film region is formed by heat of different temperatures, the second film region is formed by heat of the first temperature range, the first The film region is formed by heat of a second temperature range higher than the first temperature range.

In addition, the present invention relates to a diaphragm for a speaker, wherein the first film region is characterized in that the region of the polymer film corresponding to the central portion, and a portion of the edge portion connected to the central portion.

In addition, the present invention is a speaker diaphragm, wherein the second film region is formed by the heat of the second temperature range, the first film region is formed by the heat of the second temperature range higher than the first temperature range. It is done.

In addition, the present invention is characterized in that in the diaphragm for a speaker, the first and second film regions are formed by applying heat to the second and the first temperature range, respectively.

In addition, the present invention is characterized in that in the diaphragm for a speaker, a boundary between the edge portion and the central portion is formed in a portion where the voice coil of the speaker is opposed.

In addition, the present invention is the speaker diaphragm, wherein the first film region is characterized in that the region of the polymer film corresponding to the region of the edge portion within a predetermined distance from the outside of the central portion.

In addition, the present invention is a diaphragm for a speaker, wherein the second film region is formed by the heat of the second temperature range instead of the first temperature range, the first film region is the first temperature instead of the second temperature range It is characterized by being molded by a range of heat.

As described above, according to the diaphragm for the speaker according to the present invention, by configuring the stiffness of the center portion and the edge portion differently, it is possible to widen the low range reproduction and the high tone reproduction and to reproduce the sound with high sound quality.

In addition, according to the diaphragm for a speaker according to the present invention, by eliminating the adhesive portion where the center and the edge portion is coupled, it is possible to eliminate the gap between the center and the edge portion, thereby reducing the defect rate such as manufacturing deviation and improve the quality The effect can be obtained.

1 is a cross-sectional view of a diaphragm for a speaker according to the prior art.
Figure 2 shows a method of manufacturing a diaphragm for a speaker according to the prior art.
3 is a configuration diagram of a diaphragm for a speaker according to a first embodiment of the present invention.
4 is a graph of the crystallization temperature of the polymer film according to the present invention.
Figure 5 shows a method of manufacturing a diaphragm for a speaker according to the first embodiment of the present invention.
6 is a configuration diagram of a diaphragm for a speaker according to a second embodiment of the present invention.
7 is a configuration diagram of a diaphragm mold for a speaker according to a second embodiment of the present invention.
8 is a configuration diagram of a diaphragm for a speaker according to a third embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the drawings.

In the description of the present invention, the same parts are denoted by the same reference numerals, and repetitive description thereof will be omitted.

First, the configuration of the diaphragm for the speaker according to the first embodiment of the present invention will be described with reference to FIG.

As shown in FIG. 3, the diaphragm 10 for a speaker according to the first embodiment of the present invention is composed of a polymer film in which a central portion 11 and an edge portion 12 are integrally formed. In other words, the central portion 11 and the edge portion 12 are integrally molded from one polymer film.

The central portion 11 is formed in a dome shape, and the edge portion 12 is formed in an annular shape that is continuous at the outer edge of the central portion 11. The edge portion 12 may also be formed in a small dome shape at a portion close to the center portion 11.

The polymer film is polyethylene terephthalate (PET), polyethylene naphthalate (PEN), polyetherimide (PEI), polyimide (PI) and the like.

The polymer film is formed into a diaphragm shape as shown in FIG. 3 by pressure, heat, or heat. In this case, the polymer film may have an amorphous structure or a crystalline structure by pressure and heat, or heat.

Figure 4 shows the structure of the polymer film is formed according to the heated temperature. As shown in FIG. 4, when the polymer film is heated below the glass transition temperature (Tg), the polymer film is formed into an amorphous structure. When the polymer film is heated above the glass transition temperature (Tg), the polymer film is formed into a crystalline structure. At this time, the temperature to be formed into a crystalline structure will be referred to as the crystallization temperature.

In general, the polymer compound remains in an amorphous structure state in which the polymer has a very high molecular weight and is not regularly arranged. At this time, when the polymer compound is heated, the molecules are activated by the heat and gradually start to move. In particular, when heated above the glass transition temperature (Tg), the polymer compound has a crystal and forms a solid phase. In this case, the term crystal refers to the accumulation of molecules in a regular array.

In particular, the edge portion 12 is molded by the heat of the first temperature range, the central portion 11 is molded by the heat of the second temperature range higher than the first temperature range. Preferably, the first and second temperature ranges are divided based on the glass transition temperature (Tg). That is, the first temperature range is below the glass transition temperature, and the second temperature range is above the glass transition temperature.

Therefore, the polymer film is formed into an amorphous structure by heat in a first temperature range, and is formed into a crystalline structure by heat in a second temperature range higher than the first temperature range.

On the other hand, it is preferable that the boundary between the center portion 11 and the etch portion 12 is formed at a portion where the voice coil 15 of the speaker is opposed.

Next, a process of molding the diaphragm for the speaker according to the first embodiment of the present invention will be described with reference to FIG. 5.

As shown in Figure 5, the molding method of the diaphragm for a speaker according to the present invention comprises the steps of (a) preparing a polymer film 20 in the diaphragm mold 30; (b) applying a press to the diaphragm mold 30; (c) separating the polymer film 20.

First, as shown in FIG. 5A, one polymer film 20 is placed on a diaphragm mold 30 having a diaphragm shape. At this time, the entire polymer film 20 has an amorphous structure. The polymer film 20 is a flat film before molding.

At this time, the diaphragm mold 30 is made of a material capable of heat conduction, and is composed of a first mold region 31 positioned at the center and a second mold region 32 positioned at the periphery. In particular, when the diaphragm 10 is circular, the first mold region 31 is made circular and the second mold region 32 is made annular. The outer side of the first mold region 31 and the inner side of the second mold region 32 are in close contact with each other.

Next, as shown in FIG. 5B (or FIG. 5A), a press is applied to the diaphragm mold 30. Preference is given to adding an air press.

On the other hand, before the press is applied or during the press, the diaphragm mold 30 is heated to maintain a constant range of temperature. Thus, the polymer film 20 is in close contact with the diaphragm mold 30 and heated to the temperature of the diaphragm mold 30.

In this case, the first mold region 31 is maintained at the second temperature range, and the second mold region 32 is maintained at the first temperature range. Accordingly, the polymer film 20 in contact with the first mold region 31 (hereinafter, referred to as the first film region) 21 is molded into a crystalline structure and is in contact with the second mold region 32. The region (hereinafter referred to as the second film region) 22 is formed into an amorphous structure.

In particular, the first and second molds 31 and 32 are simultaneously heated to different temperatures, respectively, so that the first and second film regions 21 and 22 are simultaneously at different temperatures (or second and first temperature ranges). Temperature).

Next, as shown in FIG. 5C, the polymer film 20 is separated from the diaphragm mold 30.

Separated from the diaphragm mold 30, the polymer film 20 having the shape of the diaphragm is soon formed into a diaphragm 10.

As shown in FIG. 5C, the first film region 21 becomes the central portion 11 of the diaphragm, and the second film region 22 becomes the edge portion 12 of the diaphragm. That is, the edge portion 12 is shaped by the heat of the first temperature range has an amorphous structure, the central portion 11 is molded by the heat of the second temperature range higher than the first temperature range has a crystalline structure. In addition, it can be seen that the edge portion 12 and the central portion 11 are simultaneously formed by applying heat to the first and second temperature ranges, respectively.

Next, the configuration of the diaphragm for the speaker according to the second embodiment of the present invention will be described with reference to FIG.

As shown in FIG. 6, the diaphragm for a speaker according to the second exemplary embodiment of the present invention includes a polymer film in which the central portion 11 and the edge portion 12 are integrally formed. However, the central portion 11 and the region (hereinafter referred to as the first film region) 21 of the polymer film corresponding to a part of the edge portion 12 connected to the central portion 11 are formed into a crystalline structure, and the edge portion ( The region (hereinafter referred to as the second film region) 22 of the polymer film corresponding to the remaining region of 12) is molded into an amorphous structure.

That is, the second embodiment of the present invention differs only in the first and second film regions 21 and 22 compared to the first embodiment, and the rest of the configuration is the same. Hereinafter, only portions that differ from the first embodiment will be described, and the rest of the configuration will be described with reference to the description of the first embodiment.

As shown in FIG. 6, the first film region 21 is a region of the polymer film corresponding to the region of the edge portion 12 within a predetermined distance from the outside of the central portion 11. In particular, it is preferable to set the first film region 21 to about half of the length in the radial direction in the region having a small dome shape at the edge portion 12.

Meanwhile, as shown in FIG. 7, the diaphragm mold 30 for forming the polymer film 20 into the diaphragm 10 according to the second embodiment also has a first mold region 31 and a second mold region 32. ) Is different. The region of the diaphragm mold 30 corresponding to the central portion 11 and a part of the edge portion 12 connected to the central portion 11 is the first mold region 31 and corresponds to the remaining region of the edge portion 12. The region of the diaphragm mold 30 to be formed is the second mold region 32. That is, the first and second mold regions 31 are formed corresponding to the first and second film regions 21 and 22.

Next, the configuration of the diaphragm for the speaker according to the third embodiment of the present invention will be described with reference to FIG.

As shown in Fig. 8, the diaphragm for the speaker according to the third embodiment of the present invention is the same as the first embodiment or the second embodiment. However, there is a difference in that the first film region is formed into an amorphous structure instead of the crystalline structure, and the second film region is formed into a crystalline structure instead of the amorphous structure.

8A shows that the first and second film regions are molded into an amorphous structure and a crystalline structure, respectively, in the first embodiment of the present invention, and FIG. 8B shows the first and second film regions, respectively, in the second embodiment. It is molded into a qualitative structure and a crystalline structure.

The diaphragm mold 30 according to the third embodiment of the present invention has the same structure as the diaphragm mold 30 of the first and second embodiments, respectively. However, in the process of forming the diaphragm, a temperature for heating the first and second mold regions 31 and 32 is heated to a temperature in the first and second temperature ranges, respectively.

As mentioned above, although the invention made by this inventor was demonstrated concretely according to the said Example, this invention is not limited to the said Example, Of course, a various change is possible in the range which does not deviate from the summary.

10: diaphragm 11: center
12: edge portion 15: voice coil
20: polymer film 21, 22: first and second film region
30: diaphragm mold 31, 32: first and second mold

Claims (7)

It comprises a polymer film integrally molded with the central portion and the edge portion,
The region of the polymer film (hereinafter referred to as the first film region) and the remaining region of the polymer film (hereinafter referred to as the second film region) except for the first film region may be formed by heat at different temperatures. ,
And the second film region is molded by a heat of a first temperature range, and the first film region is molded by a heat of a second temperature range higher than the first temperature range.
The method of claim 1,
The first film region is a diaphragm for a speaker, characterized in that the region of the polymer film corresponding to the central portion and a portion of the edge portion connected to the central portion.
delete The method of claim 1,
And the first and second film regions are simultaneously formed by applying heat to the second and first temperature ranges, respectively.
3. The method according to claim 1 or 2,
The boundary between the edge portion and the central portion is formed in the diaphragm for a speaker facing the voice coil of the speaker.
3. The method of claim 2,
The first film region is a diaphragm for a speaker, characterized in that the region of the polymer film corresponding to the region of the edge portion within a predetermined distance from the outside of the central portion.
3. The method according to claim 1 or 2,
And the second film area is formed by heat of the second temperature range instead of the first temperature range, and the first film area is formed by heat of the first temperature range instead of the second temperature range. For diaphragm.

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