The invention relates to the technical field of earphone system, and particularly relates to an earphone and an implementation method of vibratile earphone.
Earphones are finding wider and wider application in people's daily life. For example, people wear earphones when they are listening to music or playing electronic games.
However, the existing earphones are only able to output sound. Therefore, the inventor of this application intends to invent an earphone that can vibrate in specific sound scenarios, so as to improve people's sense of shock in scenarios such as listening to music or playing electronic games with the earphone.
The present invention provides an earphone and an implementation method of vibratile earphone, such that the earphone can produce vibration when earphone signals contain low frequency signals and thus improve people's sense of shock when they are listening to voices or playing games with the earphone.
The technical solution of the invention for achieving the above purpose is carried out as follows:
The invention discloses an earphone, comprising: a low-frequency detection control circuit and a vibratile terminal connected to the low-frequency detection control circuit;
the low-frequency detection control circuit is for sending a control signal to the vibratile terminal when detecting a signal of low-frequency below a specified frequency from earphone signals;
the vibratile terminal produces vibration when receiving the control signal sent from the low-frequency detection control circuit.
The earphone is a headset, and further comprises: a headband, two speaker shells and two speaker chambers; wherein the two speaker shells are connected with the two ends of the headband respectively, and the two speaker chambers are fixed on the two speaker shells respectively;
two low-frequency detection control circuits and correspond to two vibratile terminals respectively.
In the earphone, the two low-frequency detection control circuits are in the two speaker chambers respectively.
In the earphone, the two vibratile terminals are fixed on the parts, close to the headband, of the two speaker shells respectively, and the vibration of the two vibratile terminals causes the headband and the two speaker shells to vibrate.
In the earphone, each of the two speaker shells is provided with a vibration guiding column for transmitting the vibration produced by the vibratile terminal to the corresponding speaker chamber;
each of the vibration guiding columns extends into the corresponding speaker chamber, and the distal end of each of the vibration guiding columns is in contact with the inner wall of the corresponding speaker chamber.
The earphone further comprises: two vibration gum covers, which correspond to the two vibration guiding columns on the two speaker shells respectively;
the distal end of each of the vibration guiding columns is in contact with the inner wall of the corresponding speaker chamber via the corresponding vibration gum cover.
This invention also discloses an implementation method of vibratile earphone, comprising the following steps:
adding a low-frequency detection control circuit and a vibratile terminal into the earphone;
the low-frequency detection control circuit sending a control signal to the vibratile terminal when detecting a signal of low-frequency below a specified frequency from earphone signals; and
the vibratile terminal producing vibration when receiving the control signal sent from the low-frequency detection control circuits.
In this method, the step of adding a low-frequency detection control circuit and a vibratile terminal into the earphone comprises:
adding a low-frequency detection control circuit into each of the two of the left and right speaker chambers of a headset; wherein the headset comprises a headband, two speaker shells and two speaker chambers, the two speaker shells are connected with the two ends of the headband respectively, and the two speaker chambers are fixed on the two speaker shells respectively; and
fixing two vibratile terminals on the parts, close to the headband, of the two speaker shells of the headset respectively, the vibration of the two vibratile terminals causes the headband and the two speaker shells to vibrate.
This method further comprises:
providing a vibration guiding column on each of the two speaker shells of the headset for transmitting the vibration produced by the vibratile terminals to the corresponding speaker chambers;
extending each of the vibration guiding columns into the corresponding speaker chamber, such that the distal end of each of the vibration guiding columns is in contact with the inner wall of the corresponding speaker chamber.
This method further comprises:
providing a vibration gum cover between the corresponding vibration guiding column and speaker chamber, such that the vibration guiding column is in contact with the corresponding speaker chamber via the vibration gum cover.
From the above description, it can be seen that this kind of earphone of the invention comprises: a low-frequency detection control circuit and a vibratile terminal connected to the low-frequency detection control circuit, wherein the low-frequency detection control circuit sends a control signal to the vibratile terminal when detecting a signal of low-frequency below a specified frequency from earphone signals, the vibratile terminal produces vibration when receiving the control signal sent from the low-frequency detection control circuit. This technical solution makes the earphone produce vibration when sound signals contain low-frequency parts, which improves people's sense of shock when they are listening to voice or playing games with the earphone.
In this invention, the earphone comprises: a low-frequency detection control circuit and a vibratile terminal connected to the low-frequency detection control circuit; the low-frequency detection control circuit is for sending a control signal to the vibratile terminals when detecting a signal of low-frequency below a specified frequency from earphone signals; the vibratile terminal produces vibration when receiving the control signal sent from the low-frequency detection control circuit. This makes the vibratile terminal vibrate when the earphone outputs bass notes, which also causes the earphone to vibrate.
The earphone may be an earplug phone (also referred to as in-ear phone) or a headset. However, since the earphone will produce vibration, an in-ear phone may drop from ears. Therefore, the solution of low frequency vibration is optimally implemented in a headset.
To make the object, technical solution and advantages of the present invention clearer, an embodiment of the present invention will be hereinafter described in further detail with reference to the drawings.
Further, the headset shown in
The chips 5 comprise detection circuits for sending a signal to the control circuits on the boards 6 when detecting a signal of low-frequency below a specified frequency from earphone signals. The control circuits on the boards send a control signal to the two vibratile terminals 4 when receiving the signals sent from the detection circuits, and thus control the two vibratile terminals to produce vibration. In which, the vibratile terminal is connected to the control circuit on the board via wires (the wires are not shown in
Since the boards 6 and the chips 5 are located in the speaker chambers 3, the low-frequency detection control circuits are in the speaker chambers.
As shown in
As shown in
As shown in
In this way, the vibration produced by the vibratile terminal is transmitted to the speaker chamber 3 through the vibration guiding column 7 and the vibration gum cover 8, which makes the user's ears feel the vibration. The transmission route along which the vibration is transmitted by the vibration guiding column 7 is shown by the black polyline arrows in
Therefore, the structure of this invention can transmit the vibration produced by the vibratile terminals to the user's head through the headband, and to the user's ears through the vibration guiding columns, which results in the homogeneous transmission of the vibration to the whole earphone.
Users will have better experiences with the use of the earphone of the present invention. For example, when the user is listening to music by using the earphone of this invention, the earphone will vibrate when outputting bass notes, so the user feels the vibration when appreciating the music, and the earphone of this invention can bring a stronger sense of shock than common earphone. And while the user is playing an electronic game by using the earphone of this invention, he can hear the footsteps of enemies when they are coming from behind. The earphone will vibrate when the user is shooting or attacked by the enemies, which provides the user a strong sense of shock.
401, adding a low-frequency detection control circuit and a vibratile terminal into the earphone.
In this step, adding a low-frequency detection control circuit into each of the two of left, and right speaker chambers of a headset, wherein the headset comprises a headband, two speaker shells and two speaker chambers, the two speaker shells are connected with the two ends of the headband respectively, and the two speaker chambers are fixed on the two speaker shells respectively; and fixing two vibratile terminals on the parts, close to the headband, of the two speaker shells respectively, such that the vibration of the two vibratile terminals causes the headband and the two speaker shells to vibrate.
Alternatively, in this step, the low-frequency detection control circuit and the vibratile terminal may also be provided in ear-plug earphone. In this case, the low-frequency detection control circuit and the vibratile terminal are all in the earphone shell.
402, the low-frequency detection control circuit sends a control signal to the vibratile terminal when detecting a signal of low-frequency below a specified frequency from earphone signals.
403, the vibratile terminal produces vibration when receiving the control signal sent from the low-frequency detection control circuit.
The method shown in
The method shown in
To sum up, the earphone of this invention comprises: a low-frequency detection control circuit and a vibratile terminal connected to the low-frequency detection control circuit, wherein the low-frequency detection control circuit sends a control signal to the vibratile terminal when detecting a signal of low-frequency below a specified frequency from earphone signals, and the vibratile terminal produces vibration when receiving the control signal sent from the low-frequency detection control circuit. This technical solution makes the earphone produce vibration when sound signals contain low-frequency parts, which improves people's sense of shock when they are listening to music or playing electronic games with the earphone. In addition, the vibration can be transmitted to the user's head through the headband, and to the user's ears through the vibration guiding columns, which results in the homogeneous transmission of the vibration to the whole earphone.
The foregoing description merely illustrates preferred embodiments of the present invention, and is not intended to limit the protection scope of the present invention. Any modification, equivalent replacement and improvement within the spirit and principle of the present invention should fall into the protection scope of the present invention.
Number | Date | Country | Kind |
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2012 1 0387187 | Oct 2012 | CN | national |
Filing Document | Filing Date | Country | Kind |
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PCT/CN2013/085055 | 10/11/2013 | WO | 00 |
Publishing Document | Publishing Date | Country | Kind |
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WO2014/056448 | 4/17/2014 | WO | A |
Number | Name | Date | Kind |
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20080240484 | Tanghe | Oct 2008 | A1 |
Number | Date | Country |
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1128482 | Aug 1996 | CN |
2922354 | Jul 2007 | CN |
102892057 | Jan 2013 | CN |
202949537 | May 2013 | CN |
2009290474 | Dec 2009 | JP |
Entry |
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Machine Translation of Hosoda et al. Japanese Publication No. 2009-177574, Jun. 8, 2009. |
Number | Date | Country | |
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20150264470 A1 | Sep 2015 | US |