DE10112544A1 - Built-in micro speaker for wireless communication devices - Google Patents

Abstract

An integral micro speaker with double-sided magnetic field circuits is provided. Generally, the integral micro speaker is built into a wireless communication device such as a wireless phone or a cellular phone. The integral micro speaker serves as a cradle and speaker in a wireless phone. The integral micro speaker may also include a vibrator to provide the wireless phone with an additional vibration function. In other words, a cradle, speaker and vibrator can be combined together to form an integral component within the cordless telephone.

Description

Background of the Invention Field of the Invention

The present invention relates to a micro speaker for wireless communication contraption. More particularly, the present invention relates to communication device built-in integral micro speaker with a double-sided twin magnetic circuit.

Description of related technology

Wireless communication devices such as wireless phones or mobile phones are for modern devices necessary electrical devices. Especially the mobile ones Telephones are the most common communication devices in the world. Lots Communication manufacturers focus on the development of the mobile Phones. You don't just focus on providing more and more features, but focus on reducing their manufacturing costs.

When a mobile phone receives electromagnetic waves, the mobile phone will usually convert the waves into electrical signals. By using a The loudspeaker converts the electrical signals into voices, which you want to transferred to the user. The mobile phone also uses another one Loudspeaker that serves as a cradle. If the user from the mobile The phone tries to speak to someone who is using another mobile phone, the The user's voice is converted into electrical signals through the speaker. The electrical signals are then converted into electromagnetic waves, and sent to the transfer someone's mobile phone. This way, users can interact with each other communicate.  

In addition, another vibration function is introduced in new mobile phones and always more popular. When the user receives a phone call from another user, the Vibration function cause the mobile phone to vibrate to let the user know let a phone call arrive.

However, to provide all of these receive, transmit and vibrate functions, the mobile phone requires two speakers and a vibrating device, which the Manufacturing cost increased. In addition, now that mobile phones are needed, the smaller ones than before, the printed circuit board needs to install these three separate components more space, which is not compatible with the requirements of the smaller mobile phone.

Summary of the invention

Therefore, the present invention provides an integral double-sided micro speaker Twin magnetic field circuits in a wireless communication device like one wireless phone or a mobile phone is built in to the disadvantages of the conventional Devices to overcome. The integral micro speaker serves as a recording device and as a loudspeaker of a wireless telephone. The integral micro speaker may further include a vibrator to provide additional vibration in the wireless phone generate function. In other words, a recording device, a loudspeaker and a vibrator together in an integral component within the mobile phone be united.

To achieve these and other benefits, and in accordance with the mission of Invention as set forth and broadly described herein, the invention provides a built-in Micro speaker for wireless communication devices. The micro speaker includes a carrier device, a first vibration system and a second vibration system. The first vibration system comprises a first pole plate, a first magnetic iron core, a first sound coil and a first vibration membrane. The second vibration system includes a second pole plate, a second magnetic iron core, a second sound coil and one second vibration membrane. The carrier device is between the first vibration system and the second vibration system nested. The second vibration system serves as a cradle of the wireless communication device, the first Vibration system serves as a transmission speaker of the wireless communication device. In some cases, the first and second vibration systems can be integrally formed together become.  

When in the above-mentioned built-in micro speaker, the first vibration system as the transmitter speaker of the wireless communication device is used, the first one is used Vibration system also acts as a vibration alarm generator and generates an alarm vibration when a specified frequency signal is received.

In the above-mentioned built-in micro speaker, the frequency of the specified frequency signal of 90 to 110 Hz, and 100 Hz are preferred.

In the above-mentioned built-in micro speaker, the carrier device is a yoke-like one Contraption.

The above-mentioned built-in micro speaker further includes a connection device for plugging into an external device to electrically close the external device connect.

The built-in micro speaker mentioned above further includes a resonance cover, to cover and protect the second vibration system. The resonance cover then further includes multiple holes to create a resonance. The number of holes on the resonance cover depends on a desired resonance frequency. The size of the Hole on the resonance cover depends on a desired resonance frequency.

To achieve these and other benefits, and in accordance with the mission of Invention, as outlined and broadly described herein, provides an integral Micro speaker for a wireless communication device. The micro speaker comprises a carrier device, a first vibration system and a second vibration system. The first vibration system comprises a first pole plate, a first magnetic Iron core, a first sound coil and a first vibration membrane. The second Vibration system, comprises a second pole plate, a second magnetic iron core, a second sound coil and a second vibration membrane. The first vibration membrane is heavier than the second vibration membrane. The carrier device is between the first Vibration system and the second vibration system nested. The first and that second vibration systems are integrally formed together. The second vibration system serves as a cradle of the wireless communication device, and the first Vibration system serves as a transmission speaker of the wireless communication device.  

When in the above-mentioned built-in micro speaker, the first vibration system as the transmitter speaker of the wireless communication device is used, the first one is used Vibration system also acts as a vibration alarm generator and generates an alarm vibration when a specified frequency signal is received.

Brief description of the figures

The accompanying drawings are included to further understand the invention supply, are incorporated in, and form part of this description. The painting illustrate embodiments of the invention and serve in conjunction with the Description of how to explain the principles of the invention. In the drawings are

FIGS. 1A to 1C, the respective plan view and side cross-sectional bottom view of one integral micro-speaker according to this invention produced;

FIG. 2 is a detailed cross-sectional side view of the integral micro speaker 105 as shown in FIG. 1B; and

Fig. 3A and 3B are schematic diagrams showing the twin magnetic circuits and the electrical winding around the magnetic iron within the micro speaker of this invention.

Description of the preferred embodiments

It will now be in detail to the presently preferred embodiments of the invention reference, the examples of which are shown in the accompanying drawings. Where ever possible, the same reference numerals have been used in the drawings and in the description, to refer to the same or similar parts.

This invention relates to a type of integral double-sided micro speaker Zwilling magnetic circuits. In general, the integral micro speaker is in a wireless Communication device such as a wireless phone or a cellular phone built in. The integral micro speaker serves as a recording device and a speaker in one wireless phone. The integral micro speaker may further include a vibrator to move in to create an additional vibration function for the wireless telephone. In other words, a recording device, a loudspeaker and a vibrator can be combined together to form an integral component within the wireless phone.  

Figs. 1A to 1C are respective plan cross sectional side view and bottom view of an integral micro-speaker of this invention prepared according to. As shown in FIG. 1B, the integral micro speaker 105 has two vibration systems: a first vibration system 110 and a second vibration system 120 . Both vibration systems 110 and 120 comprise a magnetic field circuit. Each magnetic field circuit comprises an inner magnetic pole plate, an outer magnetic pole plate and a magnetic iron core. Each of the vibration systems 110 and 120 further comprises a sound coil and a vibration diaphragm. The following is a more detailed description of the internal components of the integral micro speaker of the present invention.

The integral micro speaker 105 has a connector 140 for plugging into an external device such as a wireless phone so that electrical signals can move in and out of the integral micro speaker 105 . The connector includes a plurality of contact fingers for signal transmission, such as lines 146 shown in FIGS. 1A and 1B.

In addition, the integral micro speaker 105 further includes a resonance cover 150 to protect the pickup device. The resonance cover 150 may have multiple holes thereon (four holes are shown in FIG. 1C) to create a resonance. The number of holes drilled in the resonance cover 150 depends on the desired resonance frequency. The radius of these holes can also be changed to increase resonance effects. In other words, the number of holes and the size of the holes in the resonance cover 150 can be considered individually or together.

Because both vibration systems 110 and 120 can serve as a cradle or speaker for the integral micro speaker 150 , one of the vibration systems can serve as a cradle while the other can serve as a speaker. For example, if the vibration system 110 serves as a pickup device, the vibration system 120 will serve as a speaker. When the vibration system 110 serves as a cradle, a wireless communication device such as a wireless phone can use the vibration system 110 to convert acoustic vibrations into electrical signals. The electrical signal is sent through a cable to a user on the other end of the line, or to a wireless network before it goes to a user connected to the network. The vibration system 120 , which now serves as a speaker in the wireless communication device such as a wireless phone, receives the electrically converted acoustic signals from the other user through the phone cable or a network and converts them into sound vibrations. A main aspect of the integral micro speaker 105 is that it includes two vibration systems. Obviously, the vibration system 110 can serve as a broadcast speaker, so the vibration system 120 now serves as a pickup device. Since both types of arrangements are possible in this invention, the scope of this invention is not limited thereby.

In addition, the micro speaker of the invention can be converted into an integral speaker system capable of serving as a recording device, a transmission speaker, and a vibration alarm. All of this is necessary in order to convert a specified signal, such as in a range from 90 to 110 Hz, and preferably 105 Hz for a normal wireless telephone into transmission vibrations. In the preferred embodiment of this invention, vibration system 110 may serve as such a vibrator. Because the vibration system 110 includes a heavier vibration membrane and multiple support rings 112 as shown in FIG. 1A, a better vibration effect can be achieved when used as a vibrator to alert the user.

FIG. 2 is a detailed side cross-sectional view of the integral micro speaker 105 as shown in FIG. 1B built into a wireless communication device 110 . As shown in FIG. 2, the integral micro speaker 105 includes an iron pan 202 , a pair of magnetic iron cores 212 and 218 , an inner pole plate 210, and an outer pole plate 216 . The iron pan, magnetic iron cores and pole plates together form the twin magnetic field circuits required by this invention. For example, the iron core 212 and the inner pole plate 210 form an inner magnetic field circuit. The magnetic iron core 218 and the inner pole plate 216 form an outer magnetic field circuit. There is a carrier device, such as a yoke-like device 214 , that is nested between the two magnetic field circles. Generally, the components that form the twin magnetic circuit structure are embedded within a rubber-like base frame 220 to form an integral unit.

The vibration system of this micro speaker 105 includes a pair of sound coils 222 and 226 and a pair of vibration membranes 224 and 228 . For example, as shown in FIG. 2, the vibration system 110 includes the sound coil 222 and the vibration membrane 224 . The other vibration system 120 includes the sound coil 226 and the vibration diaphragm 228 . All of these sound coils and vibration membranes are interconnected and together form an integral structure using rubber-like material.

The vibration system structures are arranged over the above-mentioned base frame 220 . The entire structure actually comprises the rubber frame 220, with the respective vibration system structures, which are glued to the upper or lower surface of the rubber frame 220th The two independent magnetic field circuits are connected to the connection device 240 , so that necessary signals can be transmitted to and from the respective vibration system.

FIGS. 3A and 3B are schematic diagrams showing the twin magnetic circuits and the electrical winding around the magnetic iron within the micro speaker of this invention.

The twin magnetic field circuits are actually separate magnetic circuits. A magnetic circuit includes a magnetic iron 320 and a pole plate 310 at each end of the magnetic iron 320 . The other magnetic circuit includes a magnetic iron 350 and a pole plate 340 at each end of the magnetic iron 350 .

It is clear to the person skilled in the art that various changes and changes to the structure of the present invention can be made without the scope or spirit to leave the invention. In view of the foregoing, it is intended that the Present Invention Changes and changes from this invention are covered, provided it falls within the scope of the following claims and their equivalents.

Claims (32)

1. Built-in micro speaker for a wireless communication device, the micro speaker having:
a carrier device;
a first vibration system, comprising a first pole plate, a first magnetic iron core, a first sound coil and a first vibration membrane;
a second vibration system, comprising a second pole plate, a second magnetic iron core, a second sound coil and a second vibration membrane, the carrier device being interleaved between the first vibration system and the second vibration system, the second vibration system serving as a receiving device of the wireless communication device, and that first vibration system serves as a transmission speaker of the wireless communication device. 2. Built-in micro speaker according to claim 1, wherein when the first Vibration system as the transmission speaker of the wireless communication device serves, the first vibration system also serves as a vibration alarm generator and one Alarm vibration is generated when a specified frequency signal is received. 3. Built-in micro speaker according to claim 2, wherein the frequency of the specified frequency signal extends from 90 to 110 Hz. 4. A built-in micro speaker according to claim 3, wherein the frequency of the specified Frequency signal is about 100 Hz. 5. Built-in micro speaker according to claim 1, wherein the carrier device a yoke-like device. 6. Built-in micro speaker according to claim 1, further comprising a connection device for insertion into an external device to the external device to connect electrically. 7. Built-in micro speaker according to claim 1, further comprising a resonance cover to cover and protect the second vibration system.   8. The built-in micro speaker according to claim 7, wherein the resonance cover further has multiple holes on it to create a resonance. 9. Built-in micro speaker according to claim 8, wherein the number of holes on the Resonance coverage depends on a desired resonance frequency. 10. Built-in micro speaker according to claim 8, wherein the size of the hole on the Resonance coverage depends on a desired resonance frequency. 11. Built-in micro speaker for a wireless communication device, the micro speaker having:
a carrier device;
a first vibration system, comprising a first pole plate, a first magnetic iron core, a first sound coil and a first vibration membrane;
a second vibration system, comprising a second pole plate, a second magnetic iron core, a second sound coil and a second vibration membrane, the carrier device being nested between the first vibration system and the second vibration system, the first vibration system and the second vibration system being integrally formed, the second vibration system serves as a receiving device of the wireless communication device, and the first vibration system serves as a transmission speaker of the wireless communication device. 12. The built-in micro speaker according to claim 11, wherein when the first vibration system serves as the broadcast speaker of the wireless communication device, the first Vibration system also serves as a vibration alarm generator and an alarm vibration generated when a specified frequency signal is received. 13. Built-in micro speaker according to claim 12, wherein the frequency of the specified frequency signal extends from 90 to 110 Hz. 14. A built-in micro speaker according to claim 13, wherein the frequency of the specified Frequency signal is about 100 Hz. 15. A built-in micro speaker according to claim 11, wherein the support device is a yoke-like device.   16. Built-in micro speaker according to claim 11, further comprising a connection device for insertion into an external device to the external device to connect electrically. 17. Built-in micro speaker according to claim 11, further comprising a resonance cover to cover and protect the second vibration system. 18. A built-in micro speaker according to claim 17, wherein the resonance cover further has multiple holes on it to create a resonance. 19. A built-in micro speaker according to claim 18, wherein the number of holes on the Resonance coverage depends on a desired resonance frequency. 20. Built-in micro speaker according to claim 18, wherein the size of the hole on the Resonance coverage depends on a desired resonance frequency. 21. Built-in micro speaker for a wireless communication device, the micro speaker having:
a carrier device;
a first vibration system, comprising a first pole plate, a first magnetic iron core, a first sound coil and a first vibration membrane;
a second vibration system, comprising a second pole plate, a second magnetic iron core, a second sound coil and a second vibration membrane, the first vibration membrane being heavier than the second vibration membrane, the carrier device being nested between the first vibration system and the second vibration system, the first vibration system and the second vibration system is integrally formed, the second vibration system serves as a receiving device of the wireless communication device, and the first vibration system serves as a transmission speaker of the wireless communication device. 22. A built-in micro speaker according to claim 21, wherein when the first vibration system serves as the broadcast speaker of the wireless communication device, the first Vibration system also serves as a vibration alarm generator and an alarm vibration generated when a specified frequency signal is received.   23. A wireless communication device comprising a built-in micro speaker, the micro speaker having:
a carrier device;
a first vibration system, comprising a first pole plate, a first magnetic iron core, a first sound coil and a first vibration membrane;
a second vibration system, comprising a second pole plate, a second magnetic iron core, a second sound coil and a second vibration membrane, the carrier device being nested between the first vibration system and the second vibration system, the first vibration system and the second vibration system being integrally formed, the second vibration system serves as a receiving device of the wireless communication device, and the first vibration system serves as a transmission speaker of the wireless communication device. 24. A wireless communication device according to claim 23, wherein when the first Vibration system as the transmission speaker of the wireless communication device serves, the first vibration system also serves as a vibration alarm generator and one Alarm vibration is generated when a specified frequency signal is received. 25. A wireless communication device according to claim 24, wherein the frequency of the specified frequency signal extends from 90 to 110 Hz. 26. A wireless communication device according to claim 25, wherein the frequency of the specified frequency signal is 100 Hz. 27. A wireless communication device according to claim 23, wherein the carrier device is a yoke-like device. 28. The built-in micro speaker according to claim 23, further comprising a connection device for insertion into an external device to the external device to connect electrically. 29. A wireless communication device according to claim 23, further comprising one Resonance cover to cover and protect the second vibration system. 30. A wireless communication device according to claim 29, wherein the resonance cover further has multiple holes on it to produce a resonance.   31. A wireless communication device according to claim 30, wherein the number of holes depends on a desired resonance frequency on the resonance cover. 32. A wireless communication device according to claim 31, wherein the size of the hole is up the resonance coverage depends on a desired resonance frequency.