Disclosure of Invention
In order to solve the above technical problems, the present invention provides an intelligent earphone support, comprising: a base body having a contour matching an outline of the earphone for supporting the earphone, the base body having a receiving surface on an outer surface thereof, the receiving surface being opposite to an earpiece of the earphone when the earphone is placed in cooperation with the base body, the receiving surface having a sound propagation channel; the sound receiving unit is arranged in the base body and is close to the receiving surface and used for receiving sound of the output end of the receiver; the processing unit is arranged in the base body and is used for obtaining the running state of the earphone, and the running state is obtained by comparing and analyzing the sound of the output end of the earphone acquired by the radio unit with the audio file currently output by the earphone; the intelligent earphone support can also be detachably arranged inside the packaging box body of the earphone, and is used for enabling the earphone to keep a preset storage shape and enabling the earphone to be basically fixed relative to the packaging box body.
Preferably, the outer surface of the base body located around the receiving surface is provided with a mating surface which closely conforms to the earpiece profile by means of a relief structure.
Preferably, the mating surface is a convex ring protruding from the outer surface of the base body, and the outer peripheral shape of the convex ring matches the inner peripheral shape of the annular earmuff of the earphone.
Preferably, the audio file storage device further comprises a storage unit for storing the audio file.
Preferably, the processing unit further comprises a comprehensive transceiving unit, and the processing unit transmits the audio file to the earphone via the comprehensive transceiving unit and controls the earphone to play the audio file.
Preferably, the processing unit obtains the electric quantity data of the built-in energy storage unit of the earphone through the comprehensive receiving and transmitting unit, and when the electric quantity of the energy storage unit is insufficient, the processing unit provides electric power for the energy storage unit through the comprehensive receiving and transmitting unit.
Preferably, the processing unit compares and analyzes the sound of the output end of the receiver acquired by the radio unit with the audio file currently output by the earphone to obtain the running state; the storage unit is also used for storing the running state.
Preferably, the cloud server further comprises a communication unit for connecting the processing unit with the cloud server; the cloud server compares and analyzes the sound of the output end of the receiver acquired by the radio unit with the audio file currently output by the earphone to acquire the running state; the cloud server is also used for storing the running state.
Preferably, the integrated transceiver unit is connected with the earphone through a wire harness.
Preferably, the integrated transceiver unit is connected with the earphone in a wireless manner, and is disposed inside the base body and close to the receiving surface.
Preferably, the operating state includes an initial state, an optimal state, an aged state, and a fault state.
Preferably, the earphone further comprises a prompting unit capable of prompting the current running state and/or the change of the running state of the earphone.
Preferably, the automatic cooker further comprises an input unit through which a user can set an automatic cooker mode; in the automatic cooker mode, the processing unit controls the earphone to continuously output the audio file, detects the running state of the earphone after a preset time, stops the control of the processing unit when the running state is judged to be the optimal state, prompts the control by the prompting unit, and continuously executes the control of the processing unit when the running state is judged to be the non-optimal state.
Preferably, when the earphone is detected to be in a fault state, the processing unit controls the prompting unit to prompt the fault type and/or countermeasures.
Preferably, the intelligent earphone comprises a power supply, a power supply and a power supply unit, wherein the power supply is connected with the power supply unit through the power supply unit; and the current control unit is used for receiving the control information of the processing unit and switching on or switching off the current provided for the power utilization functional units outside the processing unit.
The invention provides an intelligent earphone support, which comprises: a base body having a contour matching an outline of the earphone for supporting the earphone, the base body having a receiving surface on an outer surface thereof, the receiving surface being opposite to an earpiece of the earphone when the earphone is placed in cooperation with the base body, the receiving surface having a sound propagation channel; the sound receiving unit is arranged in the base body and is close to the receiving surface and used for receiving sound of the output end of the receiver; the processing unit is arranged in the base body and is used for obtaining the running state of the earphone, and the running state is obtained by comparing and analyzing the sound of the output end of the earphone acquired by the radio unit with the audio file currently output by the earphone; the intelligent earphone support can be detachably arranged inside the packaging box body of the earphone, and is used for enabling the earphone to keep a preset storage shape and enabling the earphone to be basically fixed relative to the packaging box body; the user can carry out the running state detection of earphone by oneself, and convenient, timely, the specialty should, has improved the intelligent degree of earphone.
Detailed Description
In order to solve the problems that the running state of the existing earphone is difficult to determine and the intelligent degree is low, the intelligent earphone support is realized by the following technical scheme:
Example 1:
the present embodiment provides a smart headset support 100, referring to fig. 1-4, comprising: a base 101 having a contour matching the contour of the earphone 200 for supporting the earphone 200, the outer surface of the base 101 having a receiving surface 1011, the receiving surface 1011 being opposite to the earpiece 201 of the earphone 200 when the earphone 200 is placed in cooperation with the base 101, the receiving surface 1011 having a sound propagation channel; the sound receiving unit 102 is disposed inside the base 101 and close to the receiving surface 1011, and is used for receiving sound of the output end of the earphone 201; the processing unit 103 is arranged in the base 101 and is used for obtaining the running state of the earphone 200, and the running state is obtained by comparing and analyzing the sound of the output end of the earphone 201 acquired by the radio unit 102 and the audio file currently output by the earphone 200; the smart headset holder 100 may also be detachably disposed inside the package 300 of the headset 200, for maintaining the headset 200 in a predetermined storage shape and substantially fixing the headset 200 with respect to the package 300.
Specifically, the outer surface of the base 101 around the receiving surface 1011 is provided with a mating surface 1012, and the mating surface 1012 closely conforms to the contour of the earpiece 201 by means of a concave-convex structure. The earphone 201 and the base 101 form a closed space in sequence, so that interference of the external environment to the sound receiving process is reduced, and meanwhile, interference of the playing sound to the external environment is reduced, and the sound receiving effect of the sound receiving unit 102 is improved.
Specifically, the mating surface 1012 is a convex ring protruding from the outer surface of the base 101, and the outer peripheral shape of the convex ring matches the inner peripheral shape of the annular earmuff of the earpiece 201.
Specifically, the storage unit 104 is further included for storing the audio file.
Specifically, the integrated transceiver unit 105 is further included, and the processing unit 103 transmits the audio file to the earphone 200 via the integrated transceiver unit 105 and controls the earphone 200 to play the audio file.
Specifically, the processing unit 103 obtains the electric quantity data of the energy storage unit built in the earphone 200 via the integrated transceiver unit 105, and when the electric quantity of the energy storage unit is insufficient, the processing unit 103 provides electric power to the energy storage unit via the integrated transceiver unit 105.
Specifically, the processing unit 103 compares and analyzes the sound of the output end of the earphone 201 collected by the radio unit 102 with the audio file currently being output by the earphone 200 to obtain the running state; the storage unit 104 is further configured to store the operation state.
Specifically, the cloud server further comprises a communication unit 106, configured to connect the processing unit 103 with the cloud server; the cloud server compares and analyzes the sound of the output end of the earphone 201 acquired by the radio unit 102 with the audio file currently output by the earphone 200 to acquire the running state; the cloud server is also used for storing the running state.
Specifically, the integrated transceiver unit 105 is connected to the earphone 200 through a wire harness.
Specifically, the integrated transceiver unit 105 is connected to the earphone 200 in a wireless manner, and is disposed inside the base 101 and close to the receiving surface 1011. The integrated transceiver unit 105 includes a wireless communication module and a wireless charging module.
Specifically, the operating states include an initial state, an optimal state, an aged state, and a failed state. The operating states may also include only an initial state, an optimal state, and an aging state. Other classification schemes for describing different operating states during the life cycle of the headset 200 may be used for the operating states.
Specifically, the device further comprises a prompting unit 107 capable of prompting the current operation state of the earphone 200 and/or the change of the operation state. The input unit 107 is in the form of an acoustic, optical, text or other prompt.
Specifically, the automatic cooker further comprises an input unit 108, and a user can set an automatic cooker mode through the input unit 108; in the automatic cooker mode, the processing unit 103 controls the earphone 200 to continuously output the audio file, detects the operation state of the earphone 200 after a predetermined period of time, stops the control of the processing unit 103 when the operation state is judged to be the optimal state and prompts the operation state through the prompting unit 107, and continuously executes the control of the processing unit 103 when the operation state is judged to be the non-optimal state, namely, the processing unit 103 controls the earphone 200 to continuously output the audio file, detects the operation state of the earphone 200 after a predetermined period of time, and judges whether the operation state is the optimal state or not. The input unit 108 is a key, knob, touch screen, voice control or other input form.
Specifically, when the earphone is detected to be in a failure state, the processing unit 103 controls the prompting unit 107 to prompt a failure type and/or countermeasures. The fault type and the countermeasure are based on big data analysis of the historical running states of the same type of earphone by manufacturers.
Specifically, the audio playing unit 109 is further included for outputting sound to the user and the external environment when the smart phone holder 100 is in the automatic cooker mode. While the smart headset holder 100 is in the automatic pot mode, if the user also wishes to receive sound (e.g., music), the user can select audio content to be received by externally controlling the audio playback unit 109. The audio playing unit 109 is preferably a bluetooth speaker.
Specifically, the current conversion unit 110 is configured to convert the external power supply current into the current required by all the power-consuming functional units in the smart headset support 100; and a current control unit 111 for receiving control information of the processing unit 103, and switching on or off a current supplied to the power use function unit other than the processing unit 103.
Specifically, the base 101 is generally approximately "I" shaped, and the receiving surface is located in the vertical portion of the "I". The short transverse part of the I-shaped part is positioned at the top of the base body 101 and is used for carrying a connecting frame 202 between the earpieces 201; the long transverse portion of the "i" is located at the bottom of the base 101 for contacting an external support surface to maintain stability.
The intelligent earphone support 100 is used as a part of the earphone 200 package, and is convenient to sell, transport, carry and store. When in use, a user takes out the intelligent earphone support 100 and the earphone 200 from the package box 300, and places the intelligent earphone support 100 vertically. When the running state of the earphone 200 needs to be detected, the connection frame 202 of the earphone 200 is mounted on the top of the base 101, the inner periphery of the annular earmuff of the earphone 201 is tightly attached to the outer periphery of the convex ring of the mating surface 1012, the power supply of the intelligent earphone support 100 is turned on, and a user sends a control instruction to the processing unit 103 through the input unit 108, so as to control various functions to be realized. When the operation state detection of the earphone 200 is not required, the connection frame 202 of the earphone 200 is mounted on the top of the base 101, the inner circumference of the annular earmuff of the earphone 201 is tightly attached to the outer circumference of the convex ring of the mating surface 1012, and the smart earphone support 100 is only used for stably carrying the earphone 200.
The invention provides an intelligent earphone support, which comprises: a base 101 having a contour matching the contour of the earphone 200 for supporting the earphone 200, the outer surface of the base 101 having a receiving surface 1011, the receiving surface 1011 being opposite to the earpiece 201 of the earphone 200 when the earphone 200 is placed in cooperation with the base 101, the receiving surface 1011 having a sound propagation channel; the sound receiving unit 102 is disposed inside the base 101 and close to the receiving surface 1011, and is used for receiving sound of the output end of the earphone 201; the processing unit 103 is arranged in the base 101 and is used for obtaining the running state of the earphone 200, and the running state is obtained by comparing and analyzing the sound of the output end of the earphone 201 acquired by the radio unit 102 and the audio file currently output by the earphone 200; the smart headset holder 100 may also be detachably disposed inside the package 300 of the headset 200, for maintaining the headset 200 in a predetermined storage shape and substantially fixing the headset 200 with respect to the package 300; the user can detect the running state of the earphone 200 by himself, and the earphone 200 can be handled conveniently, timely and professionally, so that the intelligent degree of the earphone 200 is improved.
It should be noted that the above description of the present invention is further detailed in connection with the specific embodiments, and it should not be construed that the specific embodiments of the present invention are limited thereto, and those skilled in the art can make various improvements and modifications on the basis of the above-described embodiments while falling within the scope of the present invention.