JP6397073B2 - Method for forming silica gel vibrating membrane and silica gel vibrating membrane by the method - Google Patents

Description

  The present application relates to the technical field of electronic products, and specifically relates to a method for forming a silica gel vibrating membrane and a silica gel vibrating membrane by the method.

  A speaker is widely applied to daily life of people as a sound generating element used in electronic devices such as mobile phones and tablets. The speaker includes a vibration system and a magnetic path system that drives the vibration system to vibrate. The vibration system includes a vibration film and a voice coil that drives the vibration film to vibrate. The ambient air is vibrated to convert an electrical signal into an acoustic signal. In order to improve the acoustic effect and optimize the performance of the product, many attempts and explorations have been made in the structure and materials of the diaphragm, and the application of the silica gel diaphragm is one example.

  The silica gel material itself has high fluidity and a wide temperature adaptability range. During the operation of the speaker, the vibration membrane is less likely to be deformed by temperature change, and it is possible to better guarantee the performance of the speaker. Silica gel vibrating membranes have attracted widespread attention because they have high mechanical performance, excellent flexibility, and help improve the performance of vibrating membranes.

  In the related art, the silica gel vibrating membrane includes a dome, a silica gel membrane, and a bracket that are connected to each other. As a forming method thereof, generally, each component is formed and then sequentially bonded. Since the membranes are connected to the dome and the bracket, respectively, the shape and size of the silica gel membrane are affected by the shape and size of the dome and bracket. If this is not done, it is impossible to satisfy the assembly requirements of each part and to give the silica gel vibrating membrane good performance. Therefore, it is necessary to use a mold for forming different silica gel films for products with different specifications, and the production cost is high. At the same time, the components may be adhered unevenly, thereby affecting the use performance of the silica gel vibrating membrane.

  Therefore, in order to solve the above technical problem, it is necessary to provide a new method for forming a silica gel vibrating membrane.

  The present application aims to provide a method for forming a silica gel vibrating membrane and a silica gel vibrating membrane by the method in order to eliminate the defects of the prior art.

Step S1 of preparing a hot press mold and disposing at least the dome as a fitting part on the hot press mold;
Step S2 of injecting liquid silica gel into the hot press mold;
Step S3 of hot-pressing the liquid silica gel to obtain at least a silica gel film connected to the dome;
A method for forming a silica gel vibrating membrane comprising at least
Specifically, the present invention includes a first aspect and a second aspect.

<First aspect>
Preparing a hot press mold and a dome, and placing the dome in the hot press mold as a fitting part;
Preparing liquid silica gel and injecting the liquid silica gel into the hot press mold along the edge of the dome; and
Step S3 obtained by hot pressing the liquid silica gel to form a silica gel membrane, the silica gel membrane is connected to the dome, and the silica gel membrane assembly is molded;
An injection molding machine is prepared, the silica gel membrane assembly is arranged as a fitting part in the injection molding machine, a bracket is injection molded to the silica gel membrane assembly, and the formed bracket is removed from the dome in the silica gel membrane. Step S4 obtained by forming a silica gel vibrating membrane connected to the edge of the one end that is separated,
A method for forming a silica gel vibrating membrane comprising:

  Preferably, the step S3 further includes cooling the molded silica gel membrane assembly.

  The present invention provides a silica gel diaphragm by the above-described method for forming a silica gel diaphragm. The silica gel vibrating membrane includes a silica gel membrane, and a dome and a bracket fixedly connected to the silica gel membrane, respectively, and the silica gel membrane is connected to the first connecting portion connected to the dome and the bracket. A second connecting portion; and an arched portion connecting the first connecting portion and the second connecting portion.

  Preferably, the silica gel film connects the first connection portion connected to the dome, the second connection portion connected to the bracket, and the first connection portion and the second connection portion. And an arcuate portion.

  Preferably, the dome abuts on one end of the arched portion connected to the first connection portion, and the first connection portion covers an edge of the dome.

  Preferably, the bracket includes a bracket body having an annular structure, and an annular groove formed on an upper surface of the bracket body, and the second connection portion includes a body portion connected to the arch-shaped portion; And a fixing portion formed by bending and extending from an end portion of the main body portion, and the fixing portion is provided by being fitted into the annular groove.

  Preferably, the bracket further includes a pressing block that is connected to the bracket body and covers an upper surface of the fixing portion.

<Second aspect>
Preparing a hot press mold, a bracket and a dome, and placing the bracket and the dome in the hot press mold as fitting parts so that the bracket surrounds the dome and is spaced apart; ,
Preparing a liquid silica gel, injecting the liquid silica gel into the hot press mold, filling a gap between the bracket and the dome, and wrapping the bracket and the dome;
Step S3 obtained by hot pressing the liquid silica gel to form a silica gel membrane, the silica gel membrane is connected to the dome and the dome, respectively, and a silica gel vibrating membrane is formed,
A method for forming a silica gel vibrating membrane comprising:

  Preferably, the method for forming a silica gel vibrating membrane further includes a step of performing a cooling process after forming the silica gel vibrating membrane.

  Preferably, the bracket is a plastic bracket and is injection-molded with plastic.

  A silica gel vibrating membrane is provided by the above-described method of forming a silica gel vibrating membrane. The silica gel vibrating membrane includes a silica gel membrane, and a dome and a bracket fixedly connected to the silica gel membrane, respectively, and the silica gel membrane is connected to the first connecting portion connected to the dome and the bracket. A second connecting portion; and an arched portion connecting the first connecting portion and the second connecting portion.

  Preferably, the bracket has an annular shape and includes an annular concave groove formed on an upper surface thereof, and the second connection portion is folded from a main body portion connected to the arched portion and an end portion of the main body portion. A fixing portion formed by bending and extending, and the fixing portion is provided by being fitted into the annular groove.

  Preferably, the second connection portion further includes a sandwiching portion that is vertically connected to the main body portion and spaced from the fixing portion, and the sandwiching portion is provided by being bonded to an inner wall of the bracket. It has been.

The present invention can realize the following beneficial technical effects.
1. In the molding process according to the present application, the silica gel film is not affected by the size of the dome or bracket, and a plurality of silica gel diaphragms having different specifications and shapes can be manufactured by the same hot press mold, resulting in a low production cost. Low and easy bonding process.
2. In the method of forming the silica gel vibrating membrane described above, the problem of unevenness of the bonding surface can be prevented by bonding the silica gel membrane, the bracket and the dome by hot pressing or hot pressing and injection molding. The performance of the diaphragm can be further improved.

3 is a schematic diagram illustrating a structure of a silica gel diaphragm according to a method for forming a silica gel diaphragm according to Example 1. FIG. It is a schematic diagram which shows the structure of the silica gel membrane assembly in the silica gel vibration membrane shown in FIG. 6 is a schematic diagram illustrating a structure of a silica gel diaphragm according to a method for forming a silica gel diaphragm according to Example 2. FIG.

The present invention will be further described below with reference to the drawings and embodiments.
Example 1

  As shown in FIG. 1, FIG. 1 is a schematic diagram illustrating a structure of a silica gel vibrating membrane by a method for forming a silica gel vibrating membrane according to a first embodiment. The silica gel vibrating membrane 100 includes a silica gel membrane assembly 1 and a bracket 3, and the silica gel membrane assembly 1 and the bracket 3 are connected.

  Further, as shown in FIG. 2, FIG. 2 is a schematic diagram showing the structure of the silica gel membrane assembly in the silica gel vibrating membrane shown in FIG. The silica gel membrane assembly 1 includes a dome 11 and a silica gel membrane 12, and the silica gel membrane 12 covers the dome 11.

  The silica gel film 12 includes a first connecting part 121, a second connecting part 122, and an arched part 123 that connects the first connecting part 121 and the second connecting part 122. The first connection part 121 covers the dome 11.

  The second connection part 122 includes a main body part 1221 connected to the arched part 123 and a fixing part 1222 formed by bending and extending from an end part of the main body part 1221.

  The bracket 3 is connected to the second connection part 122 of the silica gel membrane assembly 1, and a part of the second connection part 122 is fitted to the bracket 3.

  The bracket 3 includes a bracket body 31 having an annular structure, an annular groove 32 formed on the upper surface of the bracket body 31, and a pressing block 33 connected to the bracket body 31.

  The fixing portion 1222 of the second connection portion 122 is provided by being fitted into the annular groove 32, and the pressing block 33 is provided adjacent to the annular groove 32, It is bonded to the upper surface and covers the portion exposed from the annular groove 32 in the fixed portion 1222 to connect the second connecting portion 122 and the bracket 3 more stably and firmly. Is for.

The method for forming the silica gel vibrating membrane according to Example 1 is as follows:
Step S1 of preparing a hot press mold and arranging the dome 11 as a fitting part on the hot press mold;
Preparing liquid silica gel and injecting the liquid silica gel along the edge of the dome 11 into the hot press mold;
The liquid silica gel is hot pressed to form the silica gel film 12, the silica gel film 12 is connected to the dome 11, the silica gel film assembly 1 is molded, and the molded silica gel film assembly 1 is Step S3 for cooling processing;
An injection molding machine is prepared, the silica gel membrane assembly 1 is arranged as a fitting part on the injection molding machine, a bracket is injection molded to the silica gel membrane assembly 1, and the silica gel vibrating membrane 100 is molded. Step S4,
Is provided.

Compared to the related art, the method for forming a silica gel vibrating membrane according to Example 1 has the following beneficial effects.
In the method for forming the silica gel vibrating membrane, the dome 11 is placed in the hot press mold as a fitting part, and liquid silica gel is injected into the hot press mold and hot pressed to form the silica gel membrane 12. Formed, the silica gel film 12 and the dome 11 are bonded, and then the silica gel film 12 and the dome 11 are integrally disposed as a fitting part in an injection molding machine and bonded by injection molding to form a bracket 3 and the silica gel film 12 are connected to form the bracket 3, the silica gel film 12 and the dome 11 into the silica gel vibrating film 100 by bonding. In the molding process, since the silica gel film 12 is not affected by the size of the bracket 3 or the dome 11, it is possible to reduce the influence of the external shape and size of the bracket on the hot press mold for molding the silica gel film. It has become possible to reduce the size of the mold or increase the number of mold holes based on the existing size, thereby improving the production efficiency.
2. In the method for forming the silica gel vibrating membrane, the silica gel membrane 12 and the dome 11 are bonded by a hot press molding method, and then the bracket 3 and the silica gel membrane 12 are further injected by an injection molding method. And the silica gel vibrating membrane 100 is formed. Thereby, since the problem of the non-flatness of the adhesion surface can be prevented, the performance of the silica gel vibrating membrane can be further improved.
Example 2

  As shown in FIG. 3, FIG. 3 is a schematic diagram showing the structure of the silica gel vibrating membrane produced by the method for forming a silica gel vibrating membrane according to the second embodiment. The silica gel vibrating membrane 100 includes a bracket 1, a dome 2, and a silica gel membrane 3, and both ends of the silica gel membrane 3 are connected to the bracket 1 and the dome 2, respectively.

  The bracket 1 is a plastic bracket and is injection-molded with plastic. The bracket 1 has an annular shape and includes an annular concave groove 11 formed on the upper surface thereof.

  The silica gel film 3 includes a first connection part 31, a second connection part 32, and an arched part 33 that connects the first connection part and the second connection part 32. The first connection portion 31 is connected to the dome 2, and the second connection portion 32 is connected to the bracket 1. Preferably, the first connection portion 31 covers the dome 2.

  The second connection portion 32 includes a main body portion 321 connected to the arch-shaped portion 33, a fixing portion 322 formed by bending and extending from an end portion of the main body portion 321, and the main body portion 321. A holding portion 323 that is vertically connected, the holding portion 323 being provided at a distance from the fixing portion 322, and the fixing portion 322 being provided by being fitted into the annular groove 11. The sandwiching portion 323 is provided by being bonded to the inner wall of the bracket 1.

Example 2 provides a method for forming a silica gel vibrating membrane. The silica gel molding method is:
Preparing a hot press mold and placing the bracket 1 and the dome 2 in the hot press mold as fitting parts so that the bracket 1 surrounds the dome 2 and is spaced apart;
Step S2 of preparing liquid silica gel, injecting the liquid silica gel into the hot press mold, filling the gap between the bracket 1 and the dome 2 and wrapping the bracket 1 and the dome 2;
Step S3 obtained by hot pressing the liquid silica gel to form a silica gel film 3, both ends of the silica gel film 3 are connected to the bracket 1 and the dome 2, respectively, and the silica gel vibrating membrane 100 is molded. ,
Step S4 for cooling the silica gel vibrating membrane 100;
Is provided.

Compared to the related art, the method for forming a silica gel vibrating membrane according to Example 2 has the following beneficial effects.
In the above-described method for forming a silica gel vibrating membrane, the bracket 1 and the dome 2 are arranged in a hot press mold as fitting parts, and liquid silica gel is injected into the hot press mold, and the liquid silica gel is 1, and into the gap between the bracket 1 and the dome 2 to cover the bracket 1 and the dome 2, and hot-press the both ends of the formed silica gel film 3 to the dome 2 and the dome 2, respectively. Adhere to the bracket 1. In the molding process, the silica gel membrane 3 is not affected by the size of the dome 2 or the bracket 1, and a plurality of silica gel vibrating membranes having different specifications and shapes can be manufactured by the same hot press mold, and the production cost is reduced. Low and easy bonding process.
Second, in the method of forming the silica gel vibrating membrane, the silica gel membrane 3, the bracket 1 and the dome 2 are bonded by a hot press method. Thereby, the problem of unevenness of the adhesion surface can be prevented, and the performance of the silica gel vibrating membrane can be further improved.

  The above is merely an embodiment of the present application, and it should be pointed out here that those skilled in the art can make improvements without departing from the spirit of the present application, but they all belong to the protection scope of the present application. is there.

Claims (12)

Step S1 of preparing a hot press mold and disposing at least the dome as a fitting part on the hot press mold;
Step S2 of injecting liquid silica gel into the hot press mold;
Step S3 of hot-pressing the liquid silica gel to obtain at least a silica gel film connected to the dome;
A method for forming a silica gel vibrating membrane, comprising: Preparing a hot press mold and a dome, and placing the dome in the hot press mold as a fitting part;
Preparing liquid silica gel and injecting the liquid silica gel into the hot press mold along the edge of the dome; and
It said liquid silica gel was hot pressed to form a silica gel layer, the gel layer is connected to the dome, and step S3 obtained by molding the sheet Rikageru membrane assembly,
An injection molding machine is prepared, the silica gel membrane assembly is arranged as a fitting part in the injection molding machine, a bracket is injection molded to the silica gel membrane assembly, and the formed bracket is removed from the dome in the silica gel membrane. Step S4 obtained by forming a silica gel vibrating membrane connected to the edge of the one end that is separated,
The method for forming a silica gel vibrating membrane according to claim 1, comprising:   The method of forming a silica gel vibrating membrane according to claim 2, wherein the step S3 further comprises cooling the formed silica gel membrane assembly. Preparing a hot press mold, a bracket and a dome, and placing the bracket and the dome in the hot press mold as fitting parts so that the bracket surrounds the dome and is spaced apart; ,
Preparing a liquid silica gel, injecting the liquid silica gel into the hot press mold, filling a gap between the bracket and the dome, and wrapping the bracket and the dome;
Step S3 obtained by hot pressing the liquid silica gel to form a silica gel membrane, the silica gel membrane is connected to the dome and the dome, respectively, and a silica gel vibrating membrane is formed,
The method for forming a silica gel vibrating membrane according to claim 1, comprising:   The method of forming a silica gel vibrating membrane according to claim 4, further comprising a step of performing a cooling treatment after the forming of the silica gel vibrating membrane.   The method of molding a silica gel vibrating membrane according to claim 4, wherein the bracket is a plastic bracket and is injection-molded with plastic.   A silica gel membrane comprising a first connecting part connected to the dome, a second connecting part connected to the bracket, and an arched part connecting the first connecting part and the second connecting part; The silica gel vibrating membrane according to the method for forming a silica gel vibrating membrane according to claim 2 or 3, further comprising a dome and a bracket fixedly connected to the silica gel membrane.   The bracket includes an annular bracket body, and an annular groove formed on an upper surface of the bracket body, and the second connection portion includes a body portion connected to the arched portion, and the body portion. 8. The silica gel vibration according to claim 7, further comprising: a fixing portion formed by bending and extending from an end portion of the first and second fixing portions, wherein the fixing portion is fitted into the annular groove. film.   The silica gel vibrating membrane according to claim 8, wherein the bracket further includes a pressing block connected to the bracket body and covering an upper surface of the fixing portion.   A silica gel membrane comprising a first connecting part connected to the dome, a second connecting part connected to the bracket, and an arched part connecting the first connecting part and the second connecting part; The silica gel vibrating membrane according to any one of claims 4 to 6, further comprising a dome and a bracket fixedly connected to the silica gel membrane.   The bracket has an annular shape and includes an annular concave groove formed on an upper surface thereof, and the second connection portion extends from the main body portion connected to the arch-shaped portion and an end portion of the main body portion. 11. The silica gel vibrating membrane according to claim 10, further comprising: a fixing portion formed as described above, wherein the fixing portion is provided by fitting into the annular groove.   The second connecting portion further includes a holding portion that is connected perpendicularly to the main body portion and spaced from the fixing portion, and the holding portion is provided by being bonded to the inner wall of the bracket. The silica gel vibrating membrane according to claim 11, wherein:

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