CN103251413B - A kind of earphone and blood oxygen detection system - Google Patents

Abstract

The invention provides a kind of earphone and blood oxygen detection system, comprise housing, control module and voice module, wherein, earphone also comprises: hold assembly and the blood oxygen acquisition module for gathering the parameter relevant to human body blood oxygen levels; Blood oxygen acquisition module is arranged in the hold assembly for clamping tested position, and the connection between hold assembly and housing adopts movable connection method; Control module is also for obtaining human body blood oxygen levels according to the parameter relevant to human body blood oxygen levels; Voice module is also for reporting human body blood oxygen levels according to audio signal.Earphone provided by the invention can report to user the human body blood oxygen levels detected, without the need to measurement result must could be obtained by viewing display as prior art, thus avoid because user needs to fixate display and incur loss through delay and disturb the problems such as working and learning, also save the time and efforts of user simultaneously.

Description

A kind of earphone and blood oxygen detection system

Technical field

The present invention relates to the technical field that blood oxygen detects, particularly, relate to a kind of can the blood oxygen checkout gear of voice broadcast testing result and system.

Background technology

Blood oxygen detection is used for the blood oxygen saturation of human body, that is, by distal tissues (such as the position such as finger tip, ear-lobe) congested in human body, the HONGGUANG of different wave length or the absorptance of infrared light are calculated to the arterial oxygen saturation of distal tissues.

At present, blood oxygen detection generally includes device and the parts such as luminous tube, photodetector, data processor, display and hold assembly.Wherein, hold assembly is used for the luminous tube be oppositely arranged and photodetector to be separately fixed at the both sides at the tested positions such as the ear-lobe of human body or finger tip; Luminous tube is used for sending optical signal to photodetector; Photodetector for detecting the optical signal after through tested position, and sends it to data processor; Data processor is used for obtaining human body blood oxygen levels based on the optical signal from photodetector, and this blood oxygen levels is sent to display.

Although above-mentioned blood oxygen measuring device can realize the measurement of blood oxygen and by display, measurement result is supplied to user, inevitably there is following problems in it in actual applications:

One, because existing blood oxygen measuring device shows Oximetry result by display to user, thus for enabling user see Oximetry result shown by display clearly, just need the screen size increasing display to a certain extent, this causes the volume of blood oxygen measuring device also correspondingly to increase, thus is not easy to user and carries blood oxygen measuring device.

Its two, due to existing blood oxygen measuring device need user pass through viewing display could obtain Oximetry result, thus user acquisition Oximetry result time must by the display that fixates, this can incur loss through delay and disturb ongoing work or study.Such as, when user needs to carry out Oximetry in the process of driving, because the display that fixates must could be obtained Oximetry result by user, if thus, then may there is the danger such as vehicle accident because user is removed from road sight line in the oximetry data of user limit driving limit viewing shown by display; The oximetry data watched again shown by display if user is first stopped, then may delay stroke.

Summary of the invention

For solving the problem, the invention provides a kind of earphone and blood oxygen detection system, it can report to user the human body blood oxygen levels detected, thus without the need to just human body blood oxygen levels can be obtained by viewing display.

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 arranged in described housing, and described voice module is arranged in setting receiver on the housing, and described control module is for controlling broadcast state and the play content of described voice module, wherein, described earphone also comprises:

Hold assembly and the blood oxygen acquisition module for gathering the parameter relevant to human body blood oxygen levels;

Described blood oxygen acquisition module is arranged in the hold assembly for clamping tested position, and the connection between described hold assembly and described housing adopts movable connection method;

Described control module is also for obtaining human body blood oxygen levels according to the described parameter relevant to human body blood oxygen levels;

Described voice module is also for reporting 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;

The optical signal detected for detecting the optical signal from described luminous tube, and is sent to described control module by described photodetector.

Wherein, described hold assembly comprises two ends being oppositely arranged and is arranged at the elastic folds part be connected between described two ends and with two ends, and described luminous tube and photodetector are arranged on the correspondence position of described two ends respectively.

Wherein, at least one end of described hold assembly is provided with plug, and the correspondence position of described housing is provided with at least one jack.

Wherein, described hold assembly is butterfly clamp, and described butterfly clamp comprises two holding pieces be oppositely arranged, and described luminous tube and photodetector are arranged on the correspondence position on described two holding pieces respectively.

Wherein, described hold assembly is bending, and one end of described hold assembly is installed on the housing by turning cylinder,

One in described luminous tube and the photodetector other end being arranged on described hold assembly, another of described luminous tube and photodetector installs correspondence position on the 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 to obtain is sent to exterior terminal, and receives external audio signal;

Described first communication module adopt comprise bluetooth, 2.4G radio communication, infrared ray, Wi-Fi communication, worldwide interoperability for microwave access communicate with carrierfree at least one wireless communication mode communicate.

Wherein, described earphone also comprises: second communication module, and described second communication module is used for the parameter relevant to human body blood oxygen levels that described blood oxygen acquisition module collects to be sent to second communication module or exterior terminal;

Described second communication module adopt comprise bluetooth, 2.4G radio communication, infrared ray, Wi-Fi communication, worldwide interoperability for microwave access communicate with carrierfree at least one wireless communication mode communicate.

The present invention also provides a kind of blood oxygen detection system, wherein, comprises any one above-mentioned earphone and terminal;

In described earphone, be provided with first communication module, the human body blood oxygen levels that described first communication module is used for described control module to obtain is sent to exterior terminal, and receives external audio signal;

Be provided with third communication module in described terminal, communicated with the 3rd communication module by described first communication module between described earphone and terminal.

Wherein, in described earphone, be also provided with second communication module, the parameter relevant to human body blood oxygen levels that described second communication module is used for acquisition module to collect is sent to first communication module or terminal.

Wherein, described first communication module, second communication module and adopting therebetween arbitrarily in third communication module comprise bluetooth, 2.4G radio communication, infrared ray, Wi-Fi communicate, worldwide interoperability for microwave access and communicate with carrierfree at least one wireless communication mode communicate

The present invention has following beneficial effect:

Earphone provided by the invention, by being provided with the blood oxygen acquisition module for the parameter relevant to human body blood oxygen levels on earphone, to facilitate user in the process using earphone, just can collect the parameter relevant to human body blood oxygen levels, human body blood oxygen levels is obtained by control module, human body blood oxygen levels is play to user again by voice module, both user can have been made to obtain Oximetry result in the mode listened to, and without the need to measurement result must could be obtained by viewing display as prior art, thus avoid because user needs to fixate display and incur loss through delay and disturb the problems such as working and learning, also save the time and efforts of user simultaneously.

Blood oxygen detection system provided by the invention, by adopting earphone provided by the invention, user can be made to obtain human body blood oxygen levels in the mode listened to, and without the need to measurement result must could be obtained by viewing display as prior art, thus avoid because user needs to fixate display and incur loss through delay and disturb the problems such as working and learning, also save the time and efforts of user simultaneously.

Accompanying drawing explanation

Fig. 1 is the structural representation of earphone first embodiment of the present invention;

Fig. 2 is the structural representation of earphone second embodiment of the present invention;

Fig. 3 is the structural representation of earphone of the present invention 3rd embodiment;

Fig. 4 is the structural representation of earphone of the present invention 4th embodiment;

Fig. 5 is the structural representation of blood oxygen detection system embodiment of the present invention.

Detailed description of the invention

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 the present embodiment provides comprises housing 10, control module 101 and voice module 102, wherein, housing 10 is also provided with the receiver 104 for being inserted in user's earhole, voice module 102 is for playing audio signal, control module 101 is for controlling opening and the play content thereof of voice 102, and control module 101 is installed in the housing 10, and voice module 102 is arranged in receiver 104; Earphone in the present embodiment also comprises hold assembly 20 and the blood oxygen acquisition module 103 for gathering the parameter relevant to human body blood oxygen levels, control module 101 can also obtain human body blood oxygen levels based on the parameter relevant to 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 is also for reporting human body blood oxygen levels according to the audio signal from control module 101.In the present embodiment, blood oxygen acquisition module 103 is arranged in hold assembly 20, and housing 10 adopts movable connection method to be connected with hold assembly 20, is fixed together to facilitate or is separated from the state be fixed together between housing 10 with hold assembly 20.

In the present embodiment, by being provided with the blood oxygen acquisition module for the parameter relevant to human body blood oxygen levels on earphone, to facilitate user in the process using earphone, just can collect the parameter relevant to human body blood oxygen levels, human body blood oxygen levels is obtained by control module, human body blood oxygen levels is play to user again by voice module, both user can have been made to obtain Oximetry result in the mode listened to, and without the need to measurement result must could be obtained by viewing display as prior art, thus avoid because user needs to fixate display and incur loss through delay and disturb the problems such as working and learning, also save the time and efforts of user simultaneously.

Fig. 2 is the structural representation of earphone second embodiment of the present invention.As shown in Figure 2, hold assembly 20 is in bending, and it comprises two ends being oppositely arranged and is arranged at the elastic folds part be connected between two ends and with two ends.During use, the relative position between two ends can be adjusted by the deformation of adjustment elastic folds part 202, to adapt to the size of the ear-lobe of different user, thus both ensured that hold assembly can be clamped on user's ear-lobe, guaranteed again that user was not held too tight and produces pain.

In the present embodiment, blood oxygen acquisition module 103 comprises and is arranged on luminous tube 1031 on two ends of hold assembly 20 and photodetector 1032 relative to one another, by the relative position between the deformation adjustment luminous tube 1031 of adjustment elastic folds part and photodetector 1032.Wherein, luminous tube 1031 is for sending the optical signal such as HONGGUANG or infrared light of different wave length to photodetector 1032; The optical signal detected for detecting the optical signal of Self-luminous tube 1031, and is sent to control module 101 by photodetector 1032.During use, be clamped on ear-lobe by hold assembly 20, now luminous tube 1031 and photodetector 1032 lay respectively at the both sides of ear-lobe; Luminous tube 1031 sends optical signal to photodetector 1032, and this optical signal is through arriving photodetector 1032 after ear-lobe; Photodetector 1032 detects the optical signal after through ear-lobe, and optical signal is sent to control module 101, and this optical signal is the parameter relevant to human body blood oxygen levels; Control module 101 obtains human body blood oxygen levels based on the parameter relevant to human body blood oxygen levels.

In the present embodiment, between housing 10 with hold assembly 20, adopt movable connection method to be connected, to facilitate fixing or being separated between housing 10 with hold assembly 20, like this, not only facilitate user to carry earphone, and facilitate user to carry out the detection of human body blood oxygen levels.In the present embodiment, inserting mode can be adopted between housing 10 with hold assembly 20 to be connected.Particularly, housing 10 and hold assembly 20 arrange corresponding slot 105 and plug 201 respectively.When user does not detect, plug 201 can be inserted into so that housing 10 and hold assembly 20 are fixed together in slot 105, thus blood oxygen checkout gear is easy to carry; When user carry out blood oxygen levels detect time, plug 201 can be extracted from slot 105, and hold assembly 20 is clamped to ear-lobe can starts detect.

In the present embodiment, the data wire be connected between the photodetector 1032 of blood oxygen acquisition module 103 and control module 101 has retractility usually, such as, data wire is arranged to be similar to is connected to the such helical form of telephone wire between the main frame of phone and receiver.In addition, in order to avoid data wire is pulled off, can also be connected between hold assembly 20 with housing 10 and adopt the resistance to protective wire drawing material to make.

It should be noted that, although the housing 10 in the present embodiment adopts inserting mode to be connected with between hold assembly 20, but the present invention is not limited thereto, in actual applications, also the movable connection method such as to be threaded can be adopted between housing 10 with hold assembly 20 to be connected, the object facilitating fixing between housing 10 with hold assembly 20 or be separated can be reached equally.

Also it should be noted that, although the hold assembly 20 in the present embodiment is by being oppositely arranged and being held on ear-lobe by two end clips that elastic folds part 202 connects, 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 be oppositely arranged, and luminous tube 1031 and photodetector 1032 are arranged on the correspondence position on two holding pieces respectively.During use, be clamped in by butterfly clamp on ear-lobe, now luminous tube 1031 and photodetector 1032 lay respectively at the both sides of ear-lobe; Luminous tube 1031 sends optical signal to photodetector 1032, and this optical signal is through arriving photodetector 1032 after ear-lobe; Photodetector 1032 detects the optical signal after through ear-lobe, and optical signal is sent to control module 101, and this optical signal is the parameter relevant to human body blood oxygen levels; Control module 101 obtains human body blood oxygen levels based on the parameter relevant to human body blood oxygen levels.

Fig. 3 is the structural representation of earphone of the present invention 3rd embodiment.As shown in Figure 3, different from the Headphone structure shown in Fig. 2, in the present embodiment earphone, the two ends of hold assembly 20 are provided with plug 201, the correspondence position of housing 10 is provided with two slots 105, the control module 101 of the present embodiment earphone is communicated by wireless communication mode with blood oxygen control module 103, so can without any need for connecting line between housing 10 and hold assembly 20; When not needing to detect the parameter relevant to human body blood oxygen levels, on hold assembly 20 two plug 201 can be inserted into respectively two slots 105 on housing 10 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 the weight due to earphone excessive and produce sense of discomfort; When needing to detect the parameter relevant to human body blood oxygen levels, hold assembly 20 being directly clamped on user's ear-lobe, avoiding the interference brought because housing 10 and hold assembly 20 arrange connecting line, improve the experience of user.In the present embodiment, control module 101 is undertaken communicating being specially by wireless communication mode with blood oxygen control module 103: in housing 10 and holder 20, arrange first communication module and second communication module (not shown) respectively, first communication module receives the parameter relevant to human body blood oxygen levels that blood oxygen acquisition module 103 collects, and send it to second communication module, the parameter relevant to human body blood oxygen levels received is sent to control module 101 by second communication module, control module 101 processes the parameter relevant to human body blood oxygen levels and obtains human body blood oxygen levels.

In actual applications, human body blood oxygen levels also can be sent to the such as other-end such as audio player, display by first communication module, to report by means of this terminal or display human body blood oxygen levels.Further, first communication module also can receive external audio signal, and received external audio signal is sent to voice module 102, to report external audio signal to user.In addition, at least one mode in the first communication module wireless communication mode such as such as bluetooth, 2.4G radio communication, infrared ray, Wi-Fi communication, worldwide interoperability for microwave access can be adopted to communicate with carrierfree communicates.

Fig. 4 is the structural representation of earphone of the present invention 4th embodiment.As shown in Figure 4, the earphone in the present embodiment comprises housing 10 and hold assembly 20 equally, and hold assembly 20 is in bending, and one end of hold assembly 20 is installed on the housing 10 by turning cylinder 106, and hold assembly 20 can rotate, moving axis 106 rotates; One in luminous tube 1031 and photodetector 1032 other end being arranged on hold assembly 20, another of luminous tube 1031 and photodetector 1032 is arranged on the correspondence position of housing 10.During use, receiver 104 is inserted in earhole, then rotating hold assembly 20 makes its moving axis 106 that rotates rotate, to adjust the relative position between luminous tube 1031 and photodetector 1032, until position respect to one another being adjusted in the position of luminous tube 1031 and photodetector 1032 and till laying respectively at the both sides of ear-lobe, meeting the demand of the user of the ear-lobe with different size, adding the general context of earphone when detecting the parameter relevant to human body blood oxygen levels.

In actual applications, memory element can also be set in earphone, in order to store parameter, human body blood oxygen levels and the voice data etc. relevant to human body blood oxygen levels.Memory element can be the memorizeies such as flash memory.

In sum, the earphone that the present embodiment provides, the parameter relevant to human body blood oxygen levels is detected by blood oxygen acquisition module, and obtain human body blood oxygen levels by control module based on the parameter relevant to human body blood oxygen levels, then by voice module, this human body blood oxygen levels is reported to user, user can be made to obtain human body blood oxygen levels in the mode listened to, thus enable user carrying out Oximetry and carrying out work or study while obtaining measurement result, save the time and efforts of user.

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 the present embodiment provides comprises terminal 40 and earphone 30.Wherein, the earphone that earphone 30 provides for above-mentioned any embodiment, its concrete structure have employed the structure shown in Fig. 2.In the present embodiment, in earphone 30, be also provided with first communication module, human body blood oxygen levels can be sent to the such as other-end such as audio player, display by first communication module, to report by means of this terminal or display human body blood oxygen levels.Further, first communication module also can receive external audio signal, and received external audio signal is sent to voice module 102, to report to user by external audio signal; Terminal 40 comprises terminal control module 401, third communication module 402 and terminal demonstration module 403, and terminal 40 can receive the human body blood oxygen levels that the first communication module in earphone sends, and shows human body blood oxygen levels by terminal demonstration module 403 to user.

Further, second communication module can also be set in earphone 30, second communication module is arranged in hold assembly, the parameter relevant to human body blood oxygen levels that second communication module is used for acquisition module to collect is sent to first communication module, and above-mentioned parameter is sent to control module to obtain human body blood oxygen levels by first communication module.In actual applications, the parameter relevant to human body blood oxygen levels that acquisition module can also collect by second communication module is sent to terminal 40, the above-mentioned parameter relevant to human body blood oxygen levels is processed to obtain human body blood oxygen levels by terminal 40, terminal 40 can play human body blood oxygen levels by terminal demonstration module 403 to user, or human body blood oxygen levels is sent to the first communication module of housing, then control module 101 controls voice module and plays human body blood oxygen to user.

In actual applications, first communication module, second communication module and third communication module can adopt arbitrarily that such as bluetooth, 2.4G radio communication, infrared ray, Wi-Fi communicate therebetween, worldwide interoperability for microwave accesses at least one mode transmission of data signals in the communication such as to communicate with carrierfree.

In addition, in actual applications, terminal 40 can adopt any one or a few following load mode to send human body blood oxygen levels to user: carry out voice broadcast human body blood oxygen levels by the microphone of terminal, show human body blood oxygen levels by the display screen of terminal and by the printer be connected with terminal, human body blood oxygen levels printed, selecting the mode obtaining human body blood oxygen levels to enable user according to specific needs.

In actual applications, terminal 40 can be mobile phone, notebook computer, personal digital assistant (PDA) etc., usually be provided with terminal demonstration module and terminal speech module in terminal simultaneously, thus make terminal both can show human body blood oxygen levels by terminal demonstration module to user, also can report human body blood oxygen levels by terminal speech module to user, or send human body blood oxygen levels to user by above-mentioned two kinds of modes simultaneously; Further, the printer that can also be arranged by terminal self or the printer be connected with terminal, printed human body blood oxygen levels, be beneficial to remote diagnosis and treatment.

In sum, the blood oxygen detection system that the present embodiment provides, by the above-mentioned earphone adopting the present embodiment to provide, user can be made to obtain human body blood oxygen levels in the mode listened to, thus enable user carrying out Oximetry and carrying out work or study while obtaining measurement result, save the time and efforts of user.

Be understandable that, the illustrative embodiments that above embodiment is only used to principle of the present invention is described and adopts, but 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 are also considered as protection scope of the present invention.

Claims (12)

1. an earphone, comprise the voice module of housing, control module and report audio signal, described control module is arranged in described housing, described voice module is installed in receiver on the housing, described control module is for controlling broadcast state and the play content of described voice module, it is characterized in that, described earphone also comprises:

Hold assembly and the blood oxygen acquisition module for gathering the parameter relevant to human body blood oxygen levels;

Described blood oxygen acquisition module is arranged in the hold assembly for clamping tested position, and the connection between described hold assembly and described housing adopts movable connection method, described hold assembly clamping ear-lobe;

Described control module is also for obtaining human body blood oxygen levels according to the described parameter relevant to human body blood oxygen levels;

Described voice module is also for reporting human body blood oxygen levels according to described audio signal.

2. earphone according to claim 1, is characterized in that, described movable connection method comprises inserting mode or thread connecting mode.

3. earphone according to claim 1, is characterized in that, described blood oxygen acquisition module comprises: luminous tube and photodetector;

Described luminous tube is used for sending optical signal to described photodetector;

The optical signal detected for detecting the optical signal from described luminous tube, and is sent to described control module by described photodetector.

4. earphone according to claim 3, it is characterized in that, described hold assembly comprises two ends being oppositely arranged and is arranged at the elastic folds part be connected between described two ends and with two ends, and described luminous tube and photodetector are arranged on the correspondence position of described two ends respectively.

5. earphone according to claim 4, is characterized in that, at least one end of described hold assembly is provided with plug, and the correspondence position of described housing is provided with at least one jack.

6. earphone according to claim 3, is characterized in that, described hold assembly is butterfly clamp, and described butterfly clamp comprises two holding pieces be oppositely arranged, and described luminous tube and photodetector are arranged on the correspondence position on described two holding pieces respectively.

7. earphone according to claim 3, is characterized in that, described hold assembly is bending, and one end of described hold assembly is installed on the housing by turning cylinder,

One in described luminous tube and the photodetector other end being arranged on described hold assembly, another of described luminous tube and photodetector installs correspondence position on the housing.

8. earphone according to claim 1, characterized by further comprising:

First communication module, the human body blood oxygen levels that described first communication module is used for described control module to obtain is sent to exterior terminal, and receives external audio signal;

Described first communication module adopt comprise bluetooth, 2.4G radio communication, infrared ray, Wi-Fi communication, worldwide interoperability for microwave access communicate with carrierfree at least one wireless communication mode communicate;

Described exterior terminal is used for reporting or display human body blood oxygen levels.

9. earphone according to claim 8, characterized by further comprising:

Second communication module, described second communication module is used for the parameter relevant to human body blood oxygen levels that described blood oxygen acquisition module collects to be sent to first communication module or exterior terminal;

Described second communication module adopt comprise bluetooth, 2.4G radio communication, infrared ray, Wi-Fi communication, worldwide interoperability for microwave access communicate with carrierfree at least one wireless communication mode communicate.

10. a blood oxygen detection system, is characterized in that, comprises terminal and the earphone described in claim 1-7 any one;

In described earphone, be provided with first communication module, the human body blood oxygen levels that described first communication module is used for described control module to obtain is sent to exterior terminal, and receives external audio signal;

Be provided with third communication module in described terminal, communicated with the 3rd communication module by described first communication module between described earphone and terminal.

11. blood oxygen detection systems according to claim 10, it is characterized in that, in described earphone, be also provided with second communication module, the parameter relevant to human body blood oxygen levels that described second communication module is used for acquisition module to collect is sent to first communication module or terminal.

12. blood oxygen detection systems according to claim 10, it is characterized in that, described first communication module, second communication module and adopting therebetween arbitrarily in third communication module comprise bluetooth, 2.4G radio communication, infrared ray, Wi-Fi communicate, worldwide interoperability for microwave access and communicate with carrierfree at least one wireless communication mode communicate.