Summary of the invention
For addressing the above problem, the invention provides a kind of earphone and blood oxygen detection system, it can report the human body blood oxygen levels that detects to the user, thereby need not by watching display just can obtain the human body blood oxygen levels.
For this reason, the invention provides a kind of earphone, wherein, described earphone comprises the voice module of housing, control module and report audio signal, described control module is installed in the described housing, and described voice module is installed in the receiver that is arranged on the described housing, and described control module is used for broadcast state and the play content of the described voice module of control, wherein, described earphone also comprises:
Hold assembly and the blood oxygen acquisition module that is used for gathering the parameter relevant with the human body blood oxygen levels;
Described blood oxygen acquisition module is installed in the hold assembly for the tested position of clamping, and being connected between described hold assembly and the described housing adopted movable connection method;
Described control module also is used for obtaining the human body blood oxygen levels according to the described parameter relevant with the human body blood oxygen levels;
Described voice module also is used for reporting the human body blood oxygen levels according to described audio signal.
Wherein, described movable connection method comprises inserting mode or thread connecting mode.
Wherein, described blood oxygen acquisition module comprises: luminous tube and photodetector;
Described luminous tube is used for sending optical signal to described photodetector;
Described photodetector is for detection of the optical signal from described luminous tube, and detected optical signal is sent to described control module.
Wherein, described hold assembly comprises two ends that are oppositely arranged and is arranged between described two ends and the elasticity fold spare that is connected with two ends that described luminous tube and photodetector are installed in the correspondence position of described two ends respectively.
Wherein, at least one end of described hold assembly is provided with plug, is provided with at least one jack at the correspondence position of described housing.
Wherein, described hold assembly is butterfly clamp, and described butterfly clamp comprises two holding pieces that are oppositely arranged, and described luminous tube and photodetector are installed in the correspondence position on described two holding pieces respectively.
Wherein, described hold assembly is bending, and an end of described hold assembly is installed on the described housing by turning cylinder,
An other end that is installed in described hold assembly in described luminous tube and the photodetector, another of described luminous tube and photodetector is installed in the correspondence position on the described housing.
Wherein, described earphone also comprises:
First communication module, the human body blood oxygen levels that described first communication module is used for described control module is obtained sends to exterior terminal, and receives external audio signal;
Described first communication module adopts and comprises that bluetooth, 2.4G radio communication, infrared ray, Wi-Fi communication, worldwide interoperability for microwave insert with at least a wireless communication mode during carrierfree is communicated by letter and communicate.
Wherein, described earphone also comprises: second communication module, and the parameter relevant with the human body blood oxygen levels that described second communication module is used for described blood oxygen acquisition module is collected sends to second communication module or exterior terminal;
Described second communication module adopts and comprises that bluetooth, 2.4G radio communication, infrared ray, Wi-Fi communication, worldwide interoperability for microwave insert with at least a wireless communication mode during carrierfree is communicated by letter and communicate.
The present invention also provides a kind of blood oxygen detection system, wherein, comprises above-mentioned any one earphone and terminal;
Be provided with first communication module in described earphone, the human body blood oxygen levels that described first communication module is used for described control module is obtained sends to exterior terminal, and receives external audio signal;
Be provided with third communication module in the described terminal, between described earphone and terminal, communicate by described first communication module and the 3rd communication module.
Wherein, also be provided with second communication module in described earphone, the parameter relevant with the human body blood oxygen levels that described second communication module is used for acquisition module is collected sends to first communication module or terminal.
Wherein, any in described first communication module, second communication module and the third communication module adopted between the two and comprises that bluetooth, 2.4G radio communication, infrared ray, Wi-Fi communication, worldwide interoperability for microwave insert with at least a wireless communication mode during carrierfree is communicated by letter and communicate
The present invention has following beneficial effect:
Earphone provided by the invention, be provided with blood oxygen acquisition module for the parameter relevant with the human body blood oxygen levels by earphone, to make things convenient for the user in the process of using earphone, just can collect the parameter relevant with the human body blood oxygen levels, obtain the human body blood oxygen levels by control module, play the human body blood oxygen levels by voice module to the user again, both can make the user obtain the Oximetry result in the mode of listening to, and need not as prior art, must just can obtain measurement result by watching display, thereby avoided incuring loss through delay and disturbing problem such as working and learning because of user's display that needs to fixate, the while has also been saved user's time and efforts.
Blood oxygen detection system provided by the invention, by adopting earphone provided by the invention, can make the user obtain the human body blood oxygen levels in the mode of listening to, and need not as prior art, must just can obtain measurement result by watching display, thereby avoided incuring loss through delay and disturbing problem such as working and learning because of user's display that needs to fixate, the while has also been saved user's time and efforts.
The specific embodiment
For making those skilled in the art understand technical scheme of the present invention better, below in conjunction with accompanying drawing earphone provided by the invention and blood oxygen detection system are described in detail.
Fig. 1 is the structural representation of earphone first embodiment of the present invention.As shown in Figure 1, the earphone that present embodiment provides comprises housing 10, control module 101 and voice module 102, wherein, also be provided with on the housing 10 be used to the receiver 104 that is inserted in user's earhole, voice module 102 is used for playing audio signal, control module 101 is used for opening and the play content thereof of control voice 102, and control module 101 is installed in the housing 10, and voice module 102 is installed in the receiver 104; Earphone in the present embodiment also comprises hold assembly 20 and the blood oxygen acquisition module 103 that is used for gathering the parameter relevant with the human body blood oxygen levels, control module 101 can also obtain the human body blood oxygen levels based on the parameter relevant with the human body blood oxygen levels, and this human body blood oxygen levels is converted to audio signal, then audio signal is sent to voice module 102; Voice module 102 also is used for reporting the human body blood oxygen levels according to the audio signal from control module 101.In the present embodiment, blood oxygen acquisition module 103 is installed in the hold assembly 20, and housing 10 and hold assembly 20 adopts movable connection methods to be connected, and is fixed together between housing 10 and the hold assembly 20 or separates from the state that is fixed together to make things convenient for.
In the present embodiment, be provided with blood oxygen acquisition module for the parameter relevant with the human body blood oxygen levels by earphone, to make things convenient for the user in the process of using earphone, just can collect the parameter relevant with the human body blood oxygen levels, obtain the human body blood oxygen levels by control module, play the human body blood oxygen levels by voice module to the user again, both can make the user obtain the Oximetry result in the mode of listening to, and need not as prior art, must just can obtain measurement result by watching display, thereby avoided incuring loss through delay and disturbing problem such as working and learning because of user's display that needs to fixate, the while has also been saved user's time and efforts.
Fig. 2 is the structural representation of earphone second embodiment of the present invention.As shown in Figure 2, hold assembly 20 is bending, and it comprises two ends that are oppositely arranged and is arranged between two ends and the elasticity fold spare that is connected with two ends.During use, can adjust two relative positions between the end by the deformation of adjusting elasticity fold spare 202, with the size of the ear-lobe that adapts to different user, thereby both guaranteed that hold assembly can be clamped on user's ear-lobe, guaranteed again that the user was not held too tight and produces pain.
In the present embodiment, blood oxygen acquisition module 103 comprises luminous tube 1031 and the photodetector 1032 on two ends that are arranged on hold assembly 20 relative to one another, by the deformation adjustment luminous tube 1031 of adjustment elasticity fold spare and the relative position between the photodetector 1032.Wherein, luminous tube 1031 is for optical signals such as the HONGGUANG that sends different wave lengths to photodetector 1032 or infrared lights; Photodetector 1032 is for detection of the optical signal from luminous tube 1031, and detected optical signal is sent to control module 101.During use, hold assembly 20 is clamped on the ear-lobe, this moment, luminous tube 1031 and photodetector 1032 laid respectively at the both sides of ear-lobe; Luminous tube 1031 sends optical signal to photodetector 1032, and this optical signal arrives photodetector 1032 after seeing through ear-lobe; Photodetector 1032 detects through the optical signal behind the ear-lobe, and optical signal is sent to control module 101, and this optical signal is the parameter relevant with the human body blood oxygen levels; Control module 101 obtains the human body blood oxygen levels based on the parameter relevant with the human body blood oxygen levels.
In the present embodiment, adopt movable connection method to be connected between housing 10 and the hold assembly 20, to make things convenient for fixing between housing 10 and the hold assembly 20 or to separate, like this, not only make things convenient for the user to carry earphone, and make things convenient for the user to carry out the detection of human body blood oxygen levels.In the present embodiment, can adopt inserting mode to be connected between housing 10 and the hold assembly 20.Particularly, corresponding slot 105 and plug 201 are set respectively on housing 10 and hold assembly 20.When the user does not detect, plug 201 can be inserted in the slot 105 that housing 10 and hold assembly 20 are fixed together, thereby blood oxygen checkout gear is easy to carry; When the user carries out blood oxygen levels when detecting, plug 201 can be extracted from slot 105, and hold assembly 20 is clamped to begins on the ear-lobe to detect.
In the present embodiment, be connected the photodetector 1032 of blood oxygen acquisition module 103 and the data wire between the control module 101 and have retractility usually, for example, data wire is arranged to be similar to main frame and the such helical form of the telephone wire between the receiver that is connected phone.In addition, broken for fear of data wire, can also between hold assembly 20 and housing 10, be connected and adopt the anti-protective wire that draws material to make.
Need to prove, though adopt inserting mode to be connected between the housing 10 in the present embodiment and the hold assembly 20, but the present invention is not limited thereto, in actual applications, also can adopt movable connection method such as be threaded to be connected between housing 10 and the hold assembly 20, can reach the purpose that makes things convenient for fixing between housing 10 and the hold assembly 20 or separate equally.
Also need to prove, though the hold assembly 20 in the present embodiment is to be held on the ear-lobe by two end clips that are oppositely arranged and connect by elasticity fold spare 202, but the present invention is not limited thereto, in actual applications, hold assembly 20 also can be butterfly clamp, butterfly clamp generally includes two holding pieces that are oppositely arranged, and luminous tube 1031 and photodetector 1032 are installed in two correspondence positions on the holding piece respectively.During use, butterfly clamp is clamped on the ear-lobe, this moment, luminous tube 1031 and photodetector 1032 laid respectively at the both sides of ear-lobe; Luminous tube 1031 sends optical signal to photodetector 1032, and this optical signal arrives photodetector 1032 after seeing through ear-lobe; Photodetector 1032 detects through the optical signal behind the ear-lobe, and optical signal is sent to control module 101, and this optical signal is the parameter relevant with the human body blood oxygen levels; Control module 101 obtains the human body blood oxygen levels based on the parameter relevant with the human body blood oxygen levels.
Fig. 3 is the structural representation of earphone the 3rd embodiment of the present invention.As shown in Figure 3, different with Headphone structure shown in Figure 2, the two ends of hold assembly 20 are provided with plug 201 in the present embodiment earphone, correspondence position at housing 10 is provided with two slots 105, the control module 101 of present embodiment earphone and blood oxygen control module 103 communicate by wireless communication mode, so can be without any need for connecting line between housing 10 and the hold assembly 20; When not needing to detect the parameter relevant with the human body blood oxygen levels, two plugs 201 on the hold assembly 20 can be inserted into two slots 105 on the housing 10 respectively along the direction of arrow, to improve the compactness that housing 10 and hold assembly 20 are fixedly installed togather, also hold assembly 20 can be taken off, to reduce the weight of earphone, avoid owing to the excessive sense of discomfort that produces of the weight of earphone; When needs detect the parameter relevant with the human body blood oxygen levels, hold assembly 20 directly is clamped on user's ear-lobe, avoid having improved user's experience owing to housing 10 and hold assembly 20 arrange the interference that connecting line brings.In the present embodiment, control module 101 and blood oxygen control module 103 communicate by wireless communication mode and are specially: first communication module and second communication module (not shown) are set in housing 10 and holder 20 respectively, first communication module receives blood oxygen acquisition module 103 parameters relevant with the human body blood oxygen levels that collect, and send it to second communication module, the parameter relevant with the human body blood oxygen levels that second communication module will receive sends to control module 101, and control module 101 is handled the parameter relevant with the human body blood oxygen levels and obtained the human body blood oxygen levels.
In actual applications, first communication module also can be sent to the human body blood oxygen levels such as other-ends such as audio player, display, to report by means of this terminal or demonstration human body blood oxygen levels.And first communication module also can receive external audio signal, and the external audio signal that receives is sent to voice module 102, so that external audio signal is reported to the user.In addition, first communication module can adopt at least a mode that inserts in the wireless communication mode such as communicate by letter with carrierfree such as bluetooth, 2.4G radio communication, infrared ray, Wi-Fi communication, worldwide interoperability for microwave to communicate.
Fig. 4 is the structural representation of earphone the 4th embodiment of the present invention.As shown in Figure 4, the earphone in the present embodiment comprises housing 10 and hold assembly 20 equally, and hold assembly 20 is bending, and an end of hold assembly 20 is installed on the housing 10 by turning cylinder 106, and can rotate moving axis 106 of hold assembly 20 rotates; An other end that is installed in hold assembly 20 in luminous tube 1031 and the photodetector 1032, another of luminous tube 1031 and photodetector 1032 is installed in the correspondence position of housing 10.During use, receiver 104 is inserted in the earhole, rotating hold assembly 20 then rotates its moving axis 106 that rotates, to adjust the relative position between luminous tube 1031 and the photodetector 1032, till the position of luminous tube 1031 and photodetector 1032 is adjusted to position respect to one another and is laid respectively at the both sides of ear-lobe, satisfy the user's of the ear-lobe with different size demand, increased the general context of earphone when detecting the parameter relevant with the human body blood oxygen levels.
In actual applications, memory element can also be set in earphone, in order to storage parameter, human body blood oxygen levels and the voice data etc. relevant with the human body blood oxygen levels.Memory element can be memorizeies such as flash memory.
In sum, the earphone that present embodiment provides, detect the parameter relevant with the human body blood oxygen levels by blood oxygen acquisition module, and obtain the human body blood oxygen levels by control module based on the parameter relevant with the human body blood oxygen levels, by voice module this human body blood oxygen levels is reported to the user then, can make the user obtain the human body blood oxygen levels in the mode of listening to, thereby make the user when carrying out Oximetry and obtaining measurement result, carry out work or study, save user's time and efforts.
Fig. 5 is the structural representation of blood oxygen detection system embodiment of the present invention.As shown in Figure 5, the blood oxygen detection system that provides of present embodiment comprises terminal 40 and earphone 30.Wherein, the earphone that earphone 30 provides for above-mentioned arbitrary embodiment, its concrete structure has adopted structure shown in Figure 2.In the present embodiment, also be provided with first communication module in earphone 30, first communication module can be sent to the human body blood oxygen levels such as other-ends such as audio player, display, to report by means of this terminal or demonstration human body blood oxygen levels.And first communication module also can receive external audio signal, and the external audio signal that receives is sent to voice module 102, so that external audio signal is reported to the user; Terminal 40 comprises terminal control module 401, third communication module 402 and terminal display module 403, and terminal 40 can receive the human body blood oxygen levels that the first communication module in the earphone sends, and shows the human body blood oxygen levels by terminal display module 403 to the user.
Further, can also in earphone 30, second communication module be set, second communication module is arranged in the hold assembly, the parameter relevant with the human body blood oxygen levels that second communication module is used for acquisition module is collected sends to first communication module, and first communication module sends to control module to obtain the human body blood oxygen levels with above-mentioned parameter.In actual applications, the parameter relevant with the human body blood oxygen levels that second communication module can also collect acquisition module sends to terminal 40, handle the above-mentioned parameter relevant with the human body blood oxygen levels to obtain the human body blood oxygen levels by terminal 40, terminal 40 can be play the human body blood oxygen levels to the user by terminal display module 403, perhaps the human body blood oxygen levels is sent to the first communication module of housing, control module 101 control voice modules are play human body blood oxygen to the user then.
In actual applications, first communication module, second communication module and third communication module any can be adopted between the two such as bluetooth, 2.4G radio communication, infrared ray, Wi-Fi communication, worldwide interoperability for microwave and be inserted at least a mode transmission of data signals in the communication such as communicate by letter with carrierfree.
In addition, in actual applications, terminal 40 can adopt any one or a few following load mode to send the human body blood oxygen levels to user: the microphone by terminal comes voice broadcast human body blood oxygen levels, display screen by terminal shows the human body blood oxygen levels and by the printer that is connected with terminal the human body blood oxygen levels is printed, so that the user can select obtain the mode of human body blood oxygen levels according to concrete needs.
In actual applications, terminal 40 can be mobile phone, notebook computer, personal digital assistant (PDA) etc., usually be provided with terminal display module and terminal voice module in the terminal simultaneously, thereby make terminal both can show the human body blood oxygen levels to the user by the terminal display module, also can report the human body blood oxygen levels to the user by the terminal voice module, perhaps send the human body blood oxygen levels to user by above-mentioned dual mode simultaneously; Further, can also the human body blood oxygen levels be printed by the printer of terminal self setting or the printer that is connected with terminal, be beneficial to remote diagnosis and treatment.
In sum, the blood oxygen detection system that present embodiment provides, by the above-mentioned earphone that adopts present embodiment to provide, can make the user obtain the human body blood oxygen levels in the mode of listening to, thereby make the user when carrying out Oximetry and obtaining measurement result, carry out work or study, saved user's time and efforts.
Be understandable that above embodiment only is the illustrative embodiments that adopts for principle of the present invention is described, yet the present invention is not limited thereto.For those skilled in the art, without departing from the spirit and substance in the present invention, can make various modification and improvement, these modification and improvement also are considered as protection scope of the present invention.