Oximeter step measuring instrument and data handling system
Technical field
The present invention relates to field of medical device, particularly oximeter step measuring instrument and data handling system.
Background technology
Along with growth in the living standard, increasing people likes the object being reached building body by motion.In numerous sports events, walking or jog and become a kind of motion mode be popular.For walking or jogging, also need controlled motion amount, especially for the patient suffering from the diseases such as respiratory tract disease, heart disease, hypertension, if the life-threatening situation such as myocardial ischemia, tachycardias may appear too greatly in quantity of motion.For preventing the problems referred to above, user can wear the blood oxygen measuring device possessing step function in motor process, that is: oximeter step measuring instrument, and this blood oxygen measuring device can measure the physiological parameter of user, and this physiological parameter can comprise blood oxygen levels and motion step number.User according to the physiological parameter adjustment quantity of motion measured, can occur to prevent the situation of excessive movement.
In prior art, oximeter step measuring instrument is generally finger clip type blood oxygen saturation meter step measuring instrument.This oximeter step measuring instrument comprises upper shell and lower house, generally comprises display screen and oximeter step measurement module, generally comprise battery in lower house in upper shell.And, finger cavity is formed between upper shell and lower house, during measurement, tested finger stretches in finger cavity by user, and upper shell and lower house clamp tested finger by a pair torsionspring to tested finger applying clamping pressure, thus measure the physiological parameter of user.But because this upper shell and lower house are interconnected by an articulation pivot, thus upper shell easily twists relative to about lower house, causes jump ring; And the chucking power due to spring generation is uneven and make tested finger produce sense of discomfort.
Summary of the invention
The invention provides a kind of oximeter step measuring instrument and data handling system, in order to avoid producing jump ring problem in measuring process and making user feel comfortable.
For achieving the above object, the invention provides a kind of oximeter step measuring instrument, comprise: middleupper cover, lower middle cover, shell, elastomeric element and the oximeter step measurement module for measuring physiological parameter, described shell is arranged at described middleupper cover, described lower middle cover, the outside of described elastomeric element and described oximeter step measurement module, the end of described middleupper cover is connected with the end of described lower middle cover, described elastomeric element is sheathed on the outside of the terminal connection portion position of described middleupper cover and described lower middle cover, and one end of described elastomeric element is fixed on described middleupper cover, the other end of described elastomeric element be fixed on described lower in cover.
Alternatively, be formed with the cavity volume for holding finger between described middleupper cover and described lower middle cover, the porch of described cavity volume is between the front end of described middleupper cover and the front end of described lower middle cover.
Alternatively, described middleupper cover and described lower middle cover are symmetrical arranged.
Alternatively, described elastomeric element comprises: bending section.
Alternatively, described elastomeric element also comprises: the first extension and the second extension, described first extension is extended in one end of described bending section, described first extension is fixed on the outer surface of described middleupper cover, the other end of described bending section extends described second extension, and described second extension is fixed on the outer surface of described lower middle cover.
Alternatively, described shell described elastomeric element of fitting is arranged, or described shell and described elastomeric element keep certain distance to arrange.
Alternatively, fit described middleupper cover and described lower middle cover of described elastomeric element part is arranged, or the described elastomeric element entirety described middleupper cover of laminating and described lower middle cover are arranged.
Alternatively, the width of described elastomeric element is less than the width of described middleupper cover, and the width of described elastomeric element is less than the width of described lower middle cover;
The quantity of described elastomeric element is multiple, and multiple described elastomeric element is juxtaposed on width.
Alternatively, the medial surface of described middleupper cover is provided with some projections, the medial surface of described lower middle cover is provided with some projections.
Alternatively, described physiological parameter comprises: blood oxygen levels and/or motion step number.
Alternatively, described oximeter step measurement module comprises: control treatment module, oximetry data acquisition module, oximetry data processing module, meter step data detection module and meter step data processing module;
Described control treatment module, for controlling described oximetry data acquisition module, described oximetry data processing module, described meter step data detection module and described meter step data processing module execution operation correspondingly;
Described oximetry data acquisition module, for carrying out oximetry data collection according to the instruction of described control treatment module, obtains oximetry data;
Described oximetry data processing module, for drawing blood oxygen levels according to described oximetry data;
Described meter step data detection module, detects exercise data for the instruction according to described control treatment module, obtains exercise data;
Described meter step data processing module, for measuring motion step number according to described exercise data.
Alternatively, described oximeter step measuring instrument also comprises: communication module;
Described communication module, for described blood oxygen levels and/or described motion step number are sent to data handling equipment, can store described blood oxygen levels and/or described motion step number for data handling equipment.
Alternatively, described communication module is specifically for being sent to data handling equipment according to setting-up time interval by described blood oxygen levels and/or described motion step number.
Alternatively, described oximetry data acquisition module comprises: for sending the luminous tube of optical signal and also generating the receiving tube of oximetry data for receiving optical signals according to the optical signal received, described luminous tube and described receiving tube are oppositely arranged, described middleupper cover is hollow structure inside, and described lower middle cover is hollow structure inside;
Described luminous tube is positioned at the inside of described middleupper cover, and described receiving tube is positioned at the inside of described lower middle cover; Or
Described luminous tube is positioned at the inside of described lower middle cover, and described receiving tube is positioned at the inside of described middleupper cover.
Alternatively, described oximeter step measurement module also comprises: denoising module;
Described data acquisition module also exports described oximetry data to described denoising module for the instruction according to described control treatment module;
Described denoising module, for carrying out the process of removal motion noise to described oximetry data, and exports the oximetry data after process to described oximetry data processing module.
Alternatively, described oximeter step measurement module also comprises: alarm module;
Described control treatment module is also for judging whether described blood oxygen levels is less than setting value, if judge, described blood oxygen levels is less than described setting value, sends alarm signal to described alarm module;
Described alarm module, for sending alarm according to described alarm signal.
Alternatively, described oximeter step measurement module also comprises: reminding module;
Described control treatment module also draws motion step number total amount value for carrying out statistics to the motion step number in setting-up time section, judge whether described motion step number total amount value is greater than or equal to predetermined target value, if send encouragement cue to described reminding module when judging that described motion step number total amount value is greater than or equal to described predetermined target value, if send supervision cue to described reminding module when judging that described motion step number total amount is less than described predetermined target value;
Described reminding module, for sending encouragement information according to described encouragement cue, or sends supervision message according to described supervision cue.
Alternatively, the acceleration of motion of described control treatment module also for detecting according to described meter step data detection module, draw sleep info, described sleep info comprises: time for falling asleep, nocturnalism number of times and wake-up time.
Alternatively, described oximeter step measurement module also comprises: memory module;
Described control treatment module is also for exporting blood oxygen levels and/or motion step number to described memory module;
Described memory module, for storing blood oxygen levels and/or motion step number.
Alternatively, described oximeter step measuring instrument also comprises: elastic piece structure, described elastic piece structure is wrapped in the outside of described bending section.
Alternatively, described oximeter step measuring instrument also comprises: the second latch structure being positioned at the first latch structure on described middleupper cover and being positioned on described lower middle cover, described first extension inserts to be fixed on described middleupper cover in described first latch structure, described second extension insert in the second latch structure be fixed on described lower in cover.
For achieving the above object, the invention provides a kind of data handling system, comprising: above-mentioned oximeter step measuring instrument and data handling equipment, oximeter step measuring instrument also comprises the communication module with described oximeter pacing amount model calling;
Described oximeter step measurement module is also for being sent to described communication module by described physiological parameter;
Described communication unit, for being sent to data handling equipment by described physiological parameter;
Described data handling equipment, for storing described physiological parameter.
Alternatively, described oximeter step measurement module specifically for measuring physiological parameter in real time, and exports described physiological parameter to described communication module according to setting-up time interval.
Alternatively, if described physiological parameter comprises blood oxygen levels, described data handling equipment also generates blood oxygen meansigma methods for carrying out computing to the blood oxygen levels stored in setting cycle and/or generates oxigram table according to the blood oxygen levels stored in setting cycle.
Alternatively, if described physiological parameter comprises motion step number, described data handling equipment also generates motion step number meansigma methods for carrying out computing to the motion step number stored in setting cycle and/or generates motion step number chart according to the motion step number stored in setting cycle.
Alternatively, if described physiological parameter comprises blood oxygen levels and motion step number, described data handling equipment also generates blood oxygen meansigma methods for carrying out computing to the blood oxygen levels stored in setting cycle, generates oxigram table according to the blood oxygen levels stored in setting cycle, the motion step number stored is carried out to computing generation motion step number meansigma methods in setting cycle, generates motion step number chart and/or generate blood oxygen levels and motion step number corresponding relation figure according to the blood oxygen levels stored in setting cycle and motion step number according to the motion step number stored in setting cycle.
Alternatively, described data handling equipment comprises: terminal unit or the webserver.
The present invention has following beneficial effect:
Oximeter provided by the invention step measuring instrument without the need to adopting spring structure, thus avoids in measuring process and produces jump ring problem; Oximeter step instrument provided by the invention adopts the elastomeric element outside the terminal connection portion position being sheathed on middleupper cover and lower middle cover, makes the chucking power of holding finger in measuring process even, thus makes user feel comfortable.
Accompanying drawing explanation
The structural representation of a kind of oximeter step measuring instrument that Fig. 1 provides for the embodiment of the present invention one;
Fig. 2 is the circuit connection diagram of oximeter step measuring instrument in Fig. 1;
The structural representation of a kind of oximeter step measuring instrument that Fig. 3 provides for the embodiment of the present invention two;
The structural representation of a kind of oximeter step measuring instrument that Fig. 4 provides for the embodiment of the present invention three;
The partial structurtes schematic diagram of a kind of oximeter step measuring instrument that Fig. 5 provides for the embodiment of the present invention four
Fig. 6 is the application schematic diagram of oximeter step measuring instrument in Fig. 5;
The partial structurtes schematic diagram of a kind of oximeter step measuring instrument that Fig. 7 provides for the embodiment of the present invention five;
The partial structurtes schematic diagram of a kind of oximeter step measuring instrument that Fig. 8 provides for the embodiment of the present invention six;
The structural representation of a kind of oximeter step measuring instrument that Fig. 9 provides for the embodiment of the present invention seven
The structural representation of a kind of data handling system that Figure 10 provides for the embodiment of the present invention eight.
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, oximeter step measuring instrument provided by the invention and data handling system are described in detail.
The structural representation of a kind of oximeter step measuring instrument that Fig. 1 provides for the embodiment of the present invention one, as shown in Figure 1, this oximeter step measuring instrument comprises: upper shell, lower house, elastomeric element and the oximeter step measurement module for measuring physiological parameter, upper shell comprises upper cover 3 and middleupper cover 1, described lower house lid comprises lower cover 4 and lower middle cover 2, and the end of middleupper cover 1 is connected with the end of lower middle cover 2 outside that elastomeric element is sheathed on the terminal connection portion position of middleupper cover 1 and lower middle cover 2.In the present embodiment, be formed with the cavity volume 41 for holding finger between middleupper cover 1 and lower middle cover 2, the porch 5 of cavity volume 41 is between the front end of middleupper cover 1 and the front end of lower middle cover 2.
It should be noted that: the outside of terminal connection portion position refers to: terminal connection portion position is near the side of upper cover 1 and lower cover 2.
Preferably, middleupper cover 1 and lower middle cover 2 are symmetrical arranged.In other words, middleupper cover 1 is identical with the structure of lower middle cover 2, then middleupper cover 1 and lower middle cover 2 form symmetrical structure.
In the present embodiment, elastomeric element possesses certain width, and the quantity of elastomeric element can be one or more.When the width of elastomeric element is less than the width of upper shell and the width of elastomeric element is less than the width of lower house, then the quantity of elastomeric element can be multiple, and multiple elastomeric element is juxtaposed on width, be interconnected between elastomeric element, arranging multiple elastomeric element can increase chucking power between middleupper cover and lower middle cover.When the quantity of elastomeric element is one, for keeping the chucking power between middleupper cover and lower middle cover, usually the width of this elastomeric element is set to wider width.When the quantity of elastomeric element is multiple, preferably the width of each elastomeric element can be set to less width and be interconnected between elastomeric element, like this while ensureing the chucking power between middleupper cover and lower middle cover, save the raw material manufacturing elastomeric element, thus reduced cost.Wherein, width is the direction perpendicular to paper in figure.
In the present embodiment, elastomeric element can comprise: bending section 6.One end of bending section 6 is fixed on middleupper cover 1, and the other end of bending section 6 is fixed on lower middle cover 2.Bending section 6 is wrapped in the outside of the terminal connection portion position of middleupper cover 1 and lower middle cover 2.This bending section 6 possesses elasticity, and when finger enters cavity volume 41 from porch 5, bending section 6 opened with certain angle, makes opened with certain angle between middleupper cover 1 and lower middle cover 2, thus makes cavity volume 41 hold finger.
The present embodiment, preferably, middleupper cover 1, lower middle cover 2, upper cover 3 and lower cover 4 can be one-body molded.
In the present embodiment, upper cover 3 and lower cover 4 keep certain distance to arrange with elastomeric element, such as: bending section 6 and possess certain distance between upper cover 3 and lower cover 4.Alternatively, in actual applications, upper cover 3 and lower cover 4 also can fit elastomeric element arrange.
Alternatively, the medial surface of middleupper cover 1 is provided with some projections, the medial surface of lower middle cover 2 is provided with some projections.The medial surface of middleupper cover 1 and lower middle cover 2 arranges projection, can reduce to point the relative motion between the medial surface of middleupper cover 1 and lower middle cover 2, thus reach the object reducing motion noise in the process measuring physiological parameter.And arranging projection can make user feel more comfortable when measuring.
Alternatively, elastomeric element can also comprise: the first extension 17 and the second extension 18, the first extension 17 is extended in one end of bending section 6, first extension 17 is fixed on the outer surface of middleupper cover 1, the other end of bending section 6 extends the second extension 18, second extension 18 and is fixed on the outer surface of lower middle cover 2.Wherein, the first extension 17 can be fixed on the outer surface of middleupper cover 1 by bonding mode, and the second extension 18 can be fixed on by bonding mode on the outer surface of lower middle cover 2.Wherein, preferably, bending section 6, first extension 17 and the second extension 18 one-body molded.In the present embodiment, the first extension and the second extension are set, middleupper cover and the lower middle cover chucking power to finger can be increased, thus make measurement result more accurately and make user feel more comfortable.It should be noted that: the outer surface of middleupper cover 1 refers to the side of middleupper cover 1 near upper cover 3, the outer surface of lower middle cover 2 refers to lower middle cover 2 near the side of upper cover 4.
In the present embodiment, physiological parameter can comprise: blood oxygen levels and/or motion step number.
Fig. 2 is the circuit connection diagram of oximeter step measuring instrument in Fig. 1, as depicted in figs. 1 and 2, particularly, oximeter step measurement module can comprise: control treatment module 7, oximetry data acquisition module 8, oximetry data processing module 9, meter step data detection module 10 and meter step data processing module 11.Control treatment module 7 performs operation correspondingly for controlling oximetry data acquisition module 8, oximetry data processing module 9, meter step data detection module 10 and meter step data processing module 11; Oximetry data acquisition module 8 carries out oximetry data collection for the instruction according to control treatment module 7, obtains oximetry data; Oximetry data processing module 9 is for drawing blood oxygen levels according to oximetry data; Meter step data detection module 10 detects exercise data for the instruction according to control treatment module 7, obtains exercise data; Meter step data processing module 11 is for measuring motion step number according to exercise data.Wherein, the modules in oximeter step measurement module, under the control of control treatment module 7, can measure blood oxygen levels, motion step number or blood oxygen levels and motion step number.
Oximeter step measuring instrument can possess three kinds of mode of operations: Oximetry pattern, meter step measurement pattern and oximeter step measurement pattern.Wherein, Oximetry pattern is only to the mode of operation that blood oxygen levels is measured, and meter step measurement pattern is only to the mode of operation that motion step number is measured, and oximeter step measurement pattern is simultaneously to the mode of operation that blood oxygen levels and motion step number are measured.Particularly, the selection to oximeter step measuring instrument mode of operation is realized by control treatment module 7.Control treatment module 7 can control oximetry data acquisition module 8 and perform corresponding operation, to realize Oximetry pattern; Control treatment module 7 can control meter step data detection module 10 and perform corresponding operation, to realize step measurement pattern; Control treatment module 7 can control oximetry data acquisition module 8 simultaneously and meter step data detection module 10 performs corresponding operation, to realize oximeter step measurement pattern.
Alternatively, oximeter step measuring instrument also comprises: with the communication module 12 of oximeter pacing amount model calling.Communication module 12, for blood oxygen levels and/or motion step number are sent to data handling equipment, can store blood oxygen levels and/or motion step number for data handling equipment.Communication module 12 is specifically for being sent to data handling equipment according to setting-up time interval by blood oxygen levels and/or motion step number.Preferably, data handling equipment can comprise terminal unit or the webserver.Particularly, the communication module 12 that communication module 12 can walk in measurement module with oximeter is connected, and blood oxygen levels and/or motion step number, specifically for the instruction according to control treatment module 7, are sent to data handling equipment according to setting-up time interval by communication module 12.Oximeter step measurement module can measure physiological parameter, that is: blood oxygen levels and/or motion step number in real time, but all physiological parameters that can not measure all export communication module 12 to.Oximetry data processing module 9 can export blood oxygen levels to control treatment module 7, meter step data processing module 11 can export motion step number to control treatment module 7, control treatment module 7 can export blood oxygen levels and/or motion step number to communication module 12 according to setting-up time interval, by communication module 12, blood oxygen levels and/or motion step number are sent to data handling equipment again, and by data handling equipment, blood oxygen levels and/or motion step number are stored.Wherein, setting-up time interval can need to arrange according to user, if user needs to store more physiological parameter, setting-up time less value can be set to, if user needs to store less physiological parameter, setting-up time larger value can be set to.Such as: if setting-up time is spaced apart 30 seconds, then control treatment module 7 exports the blood oxygen levels measured in time arriving for 30 seconds and/or motion step number to communication module 12, and the blood oxygen levels that all the other moment measure and/or motion step number can export communication module 12 to.Wherein, blood oxygen levels and/or motion step number are sent to data handling equipment preferably by wireless communication technology by communication module 12.Such as: communication module 12 comprises wifi unit, bluetooth unit or infrared unit.Wherein, if communication module 12 comprises bluetooth unit, then correspondingly data handling equipment also answers bluetooth enable; If communication module 12 comprises infrared unit, then correspondingly data handling equipment also should possess infrared function.Send blood oxygen levels and/or motion step number by Bluetooth technology or infrared technique, be applicable to the situation of short-distance transmission.In actual applications, communication module 12 also can adopt other communication mode that blood oxygen levels and/or motion step number are sent to data handling equipment, will not enumerate herein.
In the present embodiment, oximetry data acquisition module 8 comprises: for sending the luminous tube 81 of optical signal and also generating the receiving tube 82 of oximetry data for receiving optical signals according to the optical signal received.Luminous tube 81 and receiving tube 82 are oppositely arranged, and form the first cavity 21 between middleupper cover 1 and upper cover 3, the second cavity 22 formed between lower middle cover 2 and lower cover 4.Luminous tube 81 is positioned at the inside of the first cavity 21, and receiving tube 82 is positioned at the inside of the second cavity 22.Particularly, luminous tube 81 is arranged on the lateral surface of middleupper cover 1, and receiving tube 82 is arranged on the outside of lower middle cover 2.In actual applications, alternatively, luminous tube 81 also can be positioned at the inside of the second cavity 22, and receiving tube 82 also can be positioned at the inside of the first cavity 21.When finger is positioned at cavity volume 41 inside, luminous tube 81 sends optical signal, and this optical signal is transmitted to receiving tube 82 after the decay of the tissue of finger position, and receiving tube 82 receiving optical signals also generates oximetry data according to optical signal.
In the present embodiment, meter step data detection module 10 can be acceleration transducer, such as piezoelectric acceleration transducer, capacitance acceleration transducer or thermal-induction type acceleration transducer.Now, the exercise data that meter step data detection module 10 detects is acceleration of motion, then count step data processing module 11 and can measure motion step number according to acceleration of motion.
Alternatively, oximeter step measurement module can also comprise: denoising module 13.Oximetry data acquisition module 8 also exports oximetry data to denoising module 13 for the instruction according to control treatment module 7; Denoising module 13 for carrying out the process of removal motion noise to oximetry data, and exports the oximetry data after process to oximetry data processing module 9.The oximetry data collected in the present embodiment is by more accurate after the removal motion noise process of denoising module 13, thus the blood oxygen levels that oximetry data processing module 9 is drawn is also more accurate.
Alternatively, oximeter step measurement module can also comprise: alarm module 14.Control treatment module 7 is also for judging whether blood oxygen levels is less than setting value, if judge, blood oxygen levels is less than setting value, sends alarm signal to alarm module; Alarm module 14 is for sending alarm according to alarm signal.It is too low that this alarm can be used for prompting user blood oxygen levels.Wherein, alarm one of to comprise in auditory tone cues, picture cues, vibration prompt or combination in any.
Alternatively, oximeter step measurement module can also comprise: reminding module 15.Control treatment module 7 also draws motion step number total amount value for carrying out statistics to the motion step number in setting-up time section, judge whether this motion step number total amount value is greater than or equal to predetermined target value, if send encouragement cue to reminding module 15 when judging that motion step number total amount value is greater than or equal to predetermined target value, if send supervision cue to reminding module 15 when judging that motion step number total amount is less than predetermined target value.Reminding module 15 for sending encouragement information according to encouragement cue, or sends supervision message according to supervision cue.Wherein, when motion step number total amount is less than predetermined target value, for ensureing that user can be known and pay attention to supervision message, reminding module 15 regularly can send supervision message according to supervision cue.Wherein, encouragement information can comprise: one of in acoustic information, light information, Word message, image information, animation information, vibration information or its combination in any; Supervision message can comprise: one of in acoustic information, light information, Word message, image information, animation information, vibration information or its combination in any.
Alternatively, oximeter step measuring instrument can possess sleep pattern.Under this sleep pattern, the acceleration of motion of control treatment module 7 also for detecting according to meter step data detection module 10, draw sleep info, this sleep info comprises: time for falling asleep, nocturnalism number of times and/or wake-up time.And control treatment module 7 also can set out wakeup time according to the length of one's sleep, this wakeup time is the time of waking user up.Further, this sleep info also for exporting sleep info to communication module 12, is sent to data handling equipment by communication module 12 by control treatment module 7, carries out process form visual dormant data for data handling equipment to this sleep info.
Alternatively, this oximeter step measurement module can also comprise: display module.This display module is used for showing blood oxygen levels and/or motion step number according to the instruction of control treatment module 7.This display module is not shown in the drawings.
Alternatively, oximeter step measurement module can also comprise: memory module 16.Oximeter step measurement module is also for exporting blood oxygen levels and/or motion step number to memory module 16.Memory module 16 is for storing blood oxygen levels and/or motion step number.When lacking data handling equipment or communication module and cannot being connected to data handling equipment, store by memory module 16 pairs of blood oxygen levels of arranging and/or motion step number, thus avoid the loss of blood oxygen levels and/or motion step number.
In the present embodiment, in oximeter step measurement module, outside dehematize oxygen data acquisition module 9, all the other modules can be arranged in the first cavity 21 or the second cavity 22.In addition, this oximeter step measuring instrument can also comprise: for the supply unit of powering, this supply unit can be arranged in the first cavity 21 or the second cavity 22.Such as: this supply unit can be battery.
The oximeter step measuring instrument of the present embodiment without the need to adopting spring structure, thus avoids in measuring process and produces jump ring problem; The oximeter step instrument of the present embodiment adopts the elastomeric element outside the terminal connection portion position being sheathed on middleupper cover and lower middle cover, makes the chucking power of holding finger in measuring process even, thus makes user feel comfortable.Further, the oximeter step measuring instrument that the present embodiment provides comprises oximeter step measurement module and communication unit, oximeter can be walked the physiological parameter that measurement module measures and be sent to data handling equipment by communication unit, for data handling equipment, physiological parameter is stored, thus a large amount of physiological parameter achieved measuring stores.When user need to carry this oximeter step measuring instrument go out time, by the chucking power between middleupper cover and lower middle cover, this oximeter step measuring instrument can be clipped in collar, pocket, belt or wrist strap equipotential to be set up, be convenient for carrying, and at any time this oximeter step measuring instrument can be brought and measures when needs are measured.Particularly when user needs to use this oximeter step measuring instrument to measure motion step number under meter step mode, directly this oximeter step measuring instrument can be clipped in collar, pocket, belt or wrist strap equipotential and be set up, measurement during convenient motion.The oximeter step measuring instrument structure of the present embodiment is simple, be easy to manufacture, and manufacturing cost is lower.
Walk measuring instrument with lower house by the oximeter that articulation pivot connects with upper shell in prior art to compare, the oximeter step measuring instrument that the present embodiment provides is without the need to arranging articulation pivot structure, thus effectively reduce thickness and the volume of oximeter step measuring instrument, oximeter is made to walk measuring instrument more frivolous and small and exquisite, more convenient to carry, and adopt elastic construction can keep chucking power to a greater extent, make measurement result more accurate.
There is a kind of blood oxygen measuring device in prior art, in this blood oxygen measuring device, upper shell is provided with and has elastic endless belt, the two ends of endless belt are connected on two sides of upper shell, are set on lower house bottom endless belt.Compared with this blood oxygen measuring device in prior art, the present embodiment is arranged at the zonary structure of upper shell and lower house outside without the need to adopting, but adopt the elastomeric element being positioned at inside, thus effectively reduce thickness and the volume of oximeter step measuring instrument, operate easier; And adopt elastic construction can keep chucking power to a greater extent, make measurement result more accurate.
The structural representation of a kind of oximeter step measuring instrument that Fig. 3 provides for the embodiment of the present invention two, as shown in Figure 3, in above-described embodiment one, oximeter step measuring instrument comprises on the basis of the first extension and the second extension scheme, and the oximeter step measuring instrument of the present embodiment also comprises: the second fixed part 25 being arranged at the first fixed part 24 on middleupper cover 1 outer surface and being arranged on lower middle cover 2 outer surface.First extension 17 is fixed on the outer surface of middleupper cover 1, and the second extension 18 is fixed on the outer surface of lower middle cover 2.In the present embodiment, the length of the first fixed part 24 is equal with the length of the first extension 17, and the length of the second fixed part 25 is equal with the length of the second extension 18.When opening certain angle at bending section 6, the first extension 17 drives middleupper cover 1 to open by the first fixed part 24, and the second extension 18 drives lower middle cover 2 to open by the second fixed part 25.
Wherein, the modules in oximeter step measuring instrument also can be arranged at the inside of the first fixed part 24 or the inside of the second fixed part 25.Modules in oximeter step measuring instrument can be arranged on a circuit board, this circuit board is positioned at the inside of the first fixed part 24 or the inside of the second fixed part 25, the inside of the first fixed part 24 or the inside of the second fixed part 25 can be provided with the structure of fixing circuit board, to ensure that circuit board can be fixed on the inside of the first fixed part 24 or the inside of the second fixed part 25.
The structural representation of a kind of oximeter step measuring instrument that Fig. 4 provides for the embodiment of the present invention three, as shown in Figure 4, the difference of the present embodiment and above-described embodiment two is: the length of the first fixed part 24 is greater than the length of the first extension 17, and the length of the second fixed part 25 is greater than the length of the second extension 18.As can be seen from Figure 4, the first fixed part 24 extends to the front end of middleupper cover 1, and the second fixed part 25 extends to the front end of middleupper cover 2.
The partial structurtes schematic diagram of a kind of oximeter step measuring instrument that Fig. 5 provides for the embodiment of the present invention four, as shown in Figure 5, on the basis of above-described embodiment two, the oximeter step measuring instrument of the present embodiment also comprises: elastomeric element 23, elastomeric element 23 is wrapped in the outside of bending section 6.It should be noted that: the present embodiment is illustrate that the function of elastomeric element 23 only depicts the partial structurtes of oximeter step measuring instrument.The shape of bending section 6 is the arc of one end open, and two ends respectively with the first extension 17 of bending section 6 is connected with the second extension 18.The shape of elastomeric element 23 is the arc of one end open, the size of elastomeric element 23 slightly larger than the size of bending section 6 with the outside making elastomeric element 23 can be wrapped in bending section 6.One end of elastomeric element 23 is arranged at the connecting portion of bending section 6 and the first extension 17, and the other end of elastomeric element 23 is arranged at the connecting portion of bending section 6 and the second extension 18.The material of bending section 6 can be elastomeric material, that is: the material that elasticity is larger.Fig. 6 is the application schematic diagram of oximeter step measuring instrument in Fig. 5, as shown in Figure 5 and Figure 6, when finger enters cavity volume 41 from porch 5, bending section 6 opened with certain angle, now the first extension 17 and the second extension 18 opened with certain angle, to make between middleupper cover 1 and lower middle cover 2 also opened with certain angle to hold finger, now, opened with certain angle between upper shell and lower house.Because the elasticity of bending section 6 is larger, its expandable angle is also larger, this angle even can arrive 180 degree, if therefore bending section 6 outside does not arrange elastic piece structure 23, the interconnective middleupper cover of end 1 and lower middle cover 2 (can with reference to shown in figure 3) can rupture because the angle that open of bending section 6 is excessive.Therefore, for preventing the interconnective middleupper cover 1 of end and lower middle cover 2 from rupturing, at the outer setting elastic piece structure 23 of bending section 6, the material of elastic piece structure 23 is rigid material, that is: the material that rigidity is larger.Because the rigidity of elastic piece structure 23 is comparatively strong, therefore restriction can be played to the angle that bending section 6 opens.When finger enters cavity volume 41 from porch 5, bending section 6 has opened certain angle, first extension 17 and the second extension 18 have opened certain angle, make opened with certain angle between middleupper cover 1 and lower middle cover 2, but elastic piece structure 23 defines the angle that bending section 6 opens, effectively prevent the interconnective middleupper cover 1 of end and lower middle cover 2 ruptures, thus strengthen the service life of this oximeter step measuring instrument, and adding the elastic piece structure possessing restriction, to make user wear more comfortable, and make the measurement result of oximeter step measuring instrument more accurate.Wherein, elastic piece structure 23 possesses certain width.In actual applications, the material of bending section 6 and elastic piece structure 23 can be steel, or the material of bending section 6 and elastic piece structure 23 can be plastics.It should be noted that, the bending section 6 in Fig. 1 adopts two-wire to draw to be only and indicates bending section 6 and possess certain thickness, and the bending section 6 in Fig. 5 adopts single line to draw is only and makes a signal, and in Fig. 5, bending section 6 is identical with bending section 6 structure in Fig. 6; In like manner, in Fig. 1, the first extension 17 and the second extension 18 adopt two-wire to draw to be only and indicate certain thickness.And the first extension 17 in Fig. 5 and the second extension 18 adopt single line to draw is only and makes a signal.
The partial structurtes schematic diagram of a kind of oximeter step measuring instrument that Fig. 7 provides for the embodiment of the present invention five, as shown in Figure 7, the oximeter step measuring instrument that provides of the present embodiment and the difference of above-described embodiment one are: close middle cover and lower middle cover of elastomeric element integral plaster is arranged.Elastomeric element can comprise bending section 19, first extension 17 and the second extension 18, wherein, the shape of bending section 19 is identical with the shape of the terminal connection portion position of lower middle cover with middleupper cover, the outside of the terminal connection portion position of bending section 19 laminating and middleupper cover and lower middle cover, and the first extension 17 can be fixed on the outer surface of middleupper cover by bonding mode, second extension 18 can be fixed on by bonding mode on the outer surface of lower middle cover, thus realizes close middle cover and lower middle cover of elastomeric element integral plaster and arrange.Further, the oximeter step measuring instrument of the present embodiment can also comprise elastic piece structure 28, can see the description in embodiment four to the specific descriptions of elastic piece structure 28, no longer specifically describe herein and no longer specifically draw in accompanying drawing, the wherein shape of elastic piece structure 28 and the identical of bending section 19 in the present embodiment.Wherein, the position that dotted line identifies is the connecting portion of bending section and the first extension and the connecting portion of bending section and the second extension, one end of elastomeric element is arranged at the connecting portion of bending section and the first extension, and the other end of elastomeric element is arranged at the connecting portion of bending section and the second extension.It should be noted that: the oximeter step measuring instrument of the present embodiment illustrate only partial structurtes, can see the description in embodiment one to the description of remaining part.
The partial structurtes schematic diagram of a kind of oximeter step measuring instrument that Fig. 8 provides for the embodiment of the present invention six, as shown in Figure 8, the oximeter step measuring instrument that the present embodiment provides and the difference of above-described embodiment one are: elastomeric element can comprise bending section 20, first extension 17 and the second extension 18, the shape of bending section 20 is bending structure, and this bending structure is the square of one end open.Further, the oximeter step measuring instrument of the present embodiment can also comprise elastic piece structure 29, can see the description in embodiment four to the specific descriptions of elastic piece structure 29, no longer specifically describe herein and no longer specifically draw in accompanying drawing, wherein the shape of elastic piece structure 29 and the identical of bending section 20 in the present embodiment, be also bending structure.Wherein, the position that dotted line identifies is the connecting portion of bending section and the first extension and the connecting portion of bending section and the second extension, one end of elastomeric element is arranged at the connecting portion of bending section and the first extension, and the other end of elastomeric element is arranged at the connecting portion of bending section and the second extension.It should be noted that: the oximeter step measuring instrument of the present embodiment illustrate only partial structurtes, can see the description in embodiment one to the description of remaining part.
The structural scheme of mechanism of a kind of oximeter step measuring instrument that Fig. 9 provides for the embodiment of the present invention seven, as shown in Figure 9, on the basis of embodiment one, the oximeter step measuring instrument of the present embodiment also comprises: the second latch structure 27 being positioned at the first latch structure 26 on middleupper cover 1 and being positioned on lower middle cover 2, first extension 17 inserts to be fixed on middleupper cover 1 in the first latch structure 26, and the second extension 18 inserts in the second latch structure 27 to be fixed on lower middle cover 2.In addition, luminous tube 81 can be arranged between middleupper cover 1 and the first latch structure 26, and receiving tube 82 can be arranged between lower middle cover 2 and the second latch structure 27.For coordinating the installation of luminous tube 81 and receiving tube 82, can offer some pore structures on middleupper cover 1, first latch structure 26, lower middle cover 2 and the second latch structure 27, this pore structure can be used for fixing or places connecting line.
The structural representation of a kind of data handling system that Figure 10 provides for the embodiment of the present invention eight, as shown in Figure 10, this data handling system comprises: oximeter step measuring instrument 1 and data handling equipment 2, wherein, oximeter step measuring instrument comprises: upper shell, lower house, elastomeric element and the oximeter step measurement module for measuring physiological parameter, described upper shell comprises upper cover and middleupper cover, described lower house lid comprises lower cover and lower middle cover, the end of described middleupper cover and the end of described lower middle cover connect and the cavity volume be formed between described middleupper cover and described lower middle cover for holding finger, the porch of described cavity volume is between the front end of described middleupper cover and the front end of described lower middle cover, described elastomeric element is sheathed on the outside of the terminal connection portion position of described middleupper cover and described lower middle cover, wherein, oximeter step measuring instrument 1 also comprises: with the communication module of oximeter pacing amount model calling.
Oximeter step measurement module is also for being sent to communication module by physiological parameter; Communication unit is used for physiological parameter to be sent to data handling equipment; Data handling equipment is used for storing physiological parameter.
Oximeter step measurement module specifically for measuring physiological parameter in real time, and exports described physiological parameter to communication module according to setting-up time interval.
The specific descriptions of oximeter step measuring instrument 1 see each embodiment of above-mentioned oximeter step measuring instrument, can be repeated no more in the present embodiment.
In the present embodiment, physiological parameter can comprise: blood oxygen levels and/or motion step number.
In the present embodiment, data handling equipment can comprise: terminal unit or the webserver.Wherein, terminal unit can be mobile phone, panel computer, desktop computer or MP4 etc.User is after in use oximeter step, measuring instrument measures physiological parameter, can store oximeter walk the physiological parameter that measuring instrument measure by the terminal unit of oneself.Like this, user directly can check the physiological parameter measured on the terminal unit of oneself.Wherein, if data handling equipment is the webserver, then user is after physiological parameter measured by use oximeter step measuring instrument, can store oximeter walk measuring instrument by the webserver.When user needs to check physiological parameter, the website be set up on this webserver can be logged in, check the physiological parameter of storage.Compared to terminal unit, the webserver can store more physiological parameter.
Further, data handling equipment can also generate analysis result according to physiological parameter.Such as: analysis result can comprise blood oxygen meansigma methods, oxigram table, motion step number meansigma methods and/or motion step number chart etc.
Particularly, if physiological parameter comprises blood oxygen levels, data handling equipment also generates blood oxygen meansigma methods for carrying out computing to the blood oxygen levels stored in setting cycle and/or generates oxigram table according to the blood oxygen levels stored in setting cycle.
Particularly, if physiological parameter comprises motion step number, data handling equipment also generates motion step number meansigma methods for carrying out computing to the motion step number stored in setting cycle and/or generates motion step number chart according to the motion step number stored in setting cycle.
Particularly, if physiological parameter comprises blood oxygen levels and motion step number, data handling equipment also generates blood oxygen meansigma methods for carrying out computing to the blood oxygen levels stored in setting cycle, generates oxigram table according to the blood oxygen levels stored in setting cycle, the motion step number stored is carried out to computing generation motion step number meansigma methods in setting cycle, generates motion step number chart and/or generate blood oxygen levels and motion step number corresponding relation figure according to the blood oxygen levels stored in setting cycle and motion step number according to the motion step number stored in setting cycle.
In the present invention, setting cycle can be needed to arrange according to self by user, such as: if user needs the analysis result in month, setting cycle can be set to one month.Then data handling equipment can generate analysis result according to the physiological parameter in month.
In the data handling system that the present embodiment provides, physiological parameter can be sent to data handling equipment by communication unit, is stored physiological parameter by data handling equipment, thus a large amount of physiological parameter achieved measuring stores.Data handling equipment can also carry out analyzing and processing to physiological parameter, draw all kinds of analysis results of physiological parameter for reference, user can know the health of self according to analysis result, thus makes user more comprehensively and grasp self health accurately.
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.