CN202891941U - Oximeter step measuring instrument and data processing system - Google Patents

Abstract

The utility model discloses an oximeter step measuring instrument and a data processing system. The oximeter step measuring instrument comprises an upper shell body, a lower shell body, elastic parts and an oximeter step measuring module used for measuring the physical parameter, wherein the upper shell body comprises an upper cover and an upper-middle cover, the lower cover comprises a lower cover and a lower-middle cover, and the tail end of the upper-center cover is connected with the tail end of the lower-center cover. The elastic parts are arranged at the outer side of connecting portion between the tail ends of the upper-center cover and the lower-center cover in a sleeved mode. According to the oximeter step measuring instrument, a spring clamping problem in the measuring process is avoided and the clamping force for clamping fingers in the measuring process is enabled to be uniform, so that a user can feel comfortable.

Description

Oximeter step measuring instrument and data handling system

Technical field

This utility model 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 reaching by motion the purpose of building body.In numerous sports events, walking or jog and become a kind of motion mode that is popular.For walking or jogging, also need the controlled motion amount, especially for the patient who suffers from the diseases such as respiratory tract disease, heart disease, hypertension, if quantity of motion the life-threatening situations such as myocardial ischemia, tachycardias may occur too greatly.For preventing the problems referred to above, the user can wear the blood oxygen measuring device that possesses step function in motor process, that is: oximeter goes on foot measuring instrument, and this blood oxygen measuring device can be measured user's physiological parameter, and this physiological parameter can comprise blood oxygen levels and motion step number.The user can adjust quantity of motion according to the physiological parameter of measuring, and occurs with the situation that prevents excessive movement.

In the 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 pacing amount module in the upper shell, generally comprises battery in the lower house.And, between upper shell and lower house, be formed with the finger cavity volume, user stretches into tested finger in the finger cavity volume during measurement, and upper shell and lower house apply clamping pressure by a pair of torsionspring to tested finger and clamp tested finger, thereby measure the physiological parameter of user.But because this upper shell and lower house interconnect by an articulation pivot, thereby upper shell causes jump ring easily with respect to twisting about lower house; And make tested finger produce sense of discomfort owing to the chucking power of spring generation is inhomogeneous.

The utility model content

This utility model provides a kind of oximeter step measuring instrument and data handling system, produces the jump ring problem in the measuring process and makes the user feel comfortable in order to avoiding.

For achieving the above object, this utility model provides a kind of oximeter step measuring instrument, comprise: middleupper cover, lower middle cover, shell, elastomeric element and be used for measuring the oximeter pacing amount module of physiological parameter, described shell is arranged at described middleupper cover, described lower middle cover, the outside of described elastomeric element and described oximeter pacing amount module, the end of described middleupper cover be connected the end of lower middle cover and connect, described elastomeric element is sheathed on the outside of the terminal connecting portion of described middleupper cover and described lower middle cover, and an end of described elastomeric element is fixed on the described middleupper cover, and the other end of described elastomeric element is fixed in described lower covering.

Alternatively, be formed be used to the cavity volume that holds finger between described middleupper cover and the described lower middle cover, the porch of described cavity volume is between the front end of the front end of described middleupper cover and 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, one end of described bending section extends described the first extension, described the first extension is fixed on the outer surface of described middleupper cover, the other end of described bending section extends described the second extension, and described the second extension is fixed on the outer surface of described lower middle cover.

Alternatively, the described elastomeric element setting of fitting of described shell, perhaps described shell and described elastomeric element keep the certain distance setting.

Alternatively, described elastomeric element partly fit described middleupper cover and described lower middle cover setting, perhaps whole fit described middleupper cover and described lower middle cover setting of described elastomeric element.

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 a plurality of, and a plurality of described elastomeric element is set up in parallel on width.

Alternatively, be provided with some projections on the medial surface of described middleupper cover, be provided with some projections on the medial surface of described lower middle cover.

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: be positioned at the first latch structure and the second latch structure that is positioned on the described lower middle cover on the described middleupper cover, described the first extension inserts in described the first latch structure to be fixed on the described middleupper cover, and described the second extension inserts in the second latch structure to be fixed in described lower covering.

Alternatively, the arc that is shaped as an end opening of described bending section;

The shape of described bending section is identical with the shape of the terminal connecting portion of described middleupper cover and described lower middle cover; Perhaps,

The described bending structure that is shaped as, described bending structure are the square of an end opening.

For achieving the above object, this utility model provides a kind of data handling system, comprising: above-mentioned oximeter step measuring instrument and data handling equipment, and oximeter step measuring instrument also comprises the communication module that is connected with described oximeter pacing amount module;

Described oximeter pacing amount module also is used for described physiological parameter is sent to described communication module;

Described communication unit is used for described physiological parameter is sent to data handling equipment;

Described data handling equipment is used for described physiological parameter is stored.

Alternatively, described data handling equipment comprises: terminal unit or the webserver.

The utlity model has following beneficial effect:

The oximeter step measuring instrument that this utility model provides need not to adopt spring structure, thereby has avoided producing in the measuring process jump ring problem; Oximeter that this utility model provides step instrument adopts the elastomeric element in the terminal connecting portion outside that is sheathed on middleupper cover and lower middle cover, makes in the measuring process chucking power of holding finger even, thereby makes the user feel comfortable.

Description of drawings

A kind of oximeter that Fig. 1 provides for this utility model embodiment one goes on foot the structural representation of measuring instrument;

Fig. 2 is the circuit connection diagram of oximeter step measuring instrument among Fig. 1;

A kind of oximeter that Fig. 3 provides for this utility model embodiment two goes on foot the structural representation of measuring instrument;

A kind of oximeter that Fig. 4 provides for this utility model embodiment three goes on foot the structural representation of measuring instrument;

A kind of oximeter that Fig. 5 provides for this utility model embodiment four goes on foot the partial structurtes schematic diagram of measuring instrument

Fig. 6 is the application schematic diagram of oximeter step measuring instrument among Fig. 5;

A kind of oximeter that Fig. 7 provides for this utility model embodiment five goes on foot the partial structurtes schematic diagram of measuring instrument;

A kind of oximeter that Fig. 8 provides for this utility model embodiment six goes on foot the partial structurtes schematic diagram of measuring instrument;

A kind of oximeter that Fig. 9 provides for this utility model embodiment seven goes on foot the structural representation of measuring instrument

The structural representation of a kind of data handling system that Figure 10 provides for this utility model embodiment eight.

The specific embodiment

For making those skilled in the art understand better the technical solution of the utility model, below in conjunction with accompanying drawing oximeter step measuring instrument and the data handling system that this utility model provides is described in detail.

A kind of oximeter that Fig. 1 provides for this utility model embodiment one goes on foot the structural representation of measuring instrument, as shown in Figure 1, this oximeter step measuring instrument comprises: upper shell, lower house, elastomeric element and be used for measuring the oximeter pacing amount module of physiological parameter, upper shell comprises loam cake 3 and middleupper cover 1, described lower house lid comprises lower cover 4 and lower middle cover 2, and the end of the end of middleupper cover 1 and lower middle cover 2 connects the outside that elastomeric element is sheathed on the terminal connecting portion of middleupper cover 1 and lower middle cover 2.In the present embodiment, be formed be used to the cavity volume 41 that holds finger between middleupper cover 1 and the lower middle cover 2, the porch 5 of cavity volume 41 is between the front end of the front end of middleupper cover 1 and lower middle cover 2.

Need to prove: the outside of terminal connecting portion refers to: terminal connecting portion is near a side of loam cake 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, and 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 less than the width of the width of upper shell and elastomeric element during less than the width of lower house, then the quantity of elastomeric element can be for a plurality of, and a plurality of elastomeric elements are set up in parallel on width, interconnect between the elastomeric element, a plurality of elastomeric elements are set can increase chucking power between middleupper cover and the lower middle cover.When the quantity of elastomeric element was one, for keeping the chucking power between middleupper cover and the lower middle cover, the width of this elastomeric element was set to wider width usually.When the quantity of elastomeric element is a plurality of, width that preferably can each elastomeric element is set to less width and will interconnects between the elastomeric element, in the chucking power that guarantees between middleupper cover and the lower middle cover, saved and made the raw material of elastomeric element, thereby reduced cost like this.Wherein, width is perpendicular to the direction of paper among the figure.

In the present embodiment, elastomeric element can comprise: bending section 6.One end of bending section 6 is fixed on the middleupper cover 1, and the other end of bending section 6 is fixed on the lower middle cover 2.Bending section 6 is wrapped in the outside of the terminal connecting portion of middleupper cover 1 and lower middle cover 2.This bending section 6 possesses elasticity, and when finger entered the cavity volume 41 from porch 5, bending section 6 opened with certain angle made opened with certain angle between middleupper cover 1 and the lower middle cover 2, thereby make cavity volume 41 can hold finger.

The present embodiment, preferably, middleupper cover 1, lower middle cover 2, loam cake 3 and lower cover 4 can be one-body molded.

In the present embodiment, loam cake 3 and lower cover 4 keep the certain distance setting with elastomeric element, for example: possess certain distance between bending section 6 and loam cake 3 and the lower cover 4.Alternatively, in actual applications, the elastomeric element setting of also can fitting of loam cake 3 and lower cover 4.

Alternatively, be provided with some projections on the medial surface of middleupper cover 1, be provided with some projections on the medial surface of lower middle cover 2.Medial surface at middleupper cover 1 and lower middle cover 2 arranges projection, can reduce to point and the medial surface of middleupper cover 1 and lower middle cover 2 between relative motion, thereby reach the purpose that in the process of measuring physiological parameter, reduces motion noise.And projection is set can make user feel more comfortable when measuring.

Alternatively, elastomeric element can also comprise: the first extension 17 and the second extension 18, one end of bending section 6 extends the first extension 17, the 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, the second extensions 18 and is fixed on the outer surface of lower middle cover 2.Wherein, the first extension 17 can be fixed in by bonding mode on the outer surface of middleupper cover 1, and the second extension 18 can be fixed on the outer surface of lower middle cover 2 by bonding mode.Wherein, preferably, bending section 6, the first extension 17 and the second extension 18 are one-body molded.In the present embodiment, the first extension and the second extension are set, can increase the chucking power that middleupper cover and lower middle cover adversary refer to, thereby make measurement result more accurately and make the user feel more comfortable.Need to prove: the outer surface of middleupper cover 1 refers to middleupper cover 1 near a side of loam cake 3, and the outer surface of lower middle cover 2 refers to lower middle cover 2 near a side of loam cake 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 among Fig. 1, as depicted in figs. 1 and 2, particularly, oximeter pacing amount module can comprise: control processing 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 processing module 7 is used for the operation that control oximetry data acquisition module 8, oximetry data processing module 9, meter step data detection module 10 and meter step data processing module 11 are carried out correspondingly; Oximetry data acquisition module 8 is used for carrying out the oximetry data collection according to the indication of control processing module 7, obtains oximetry data; Oximetry data processing module 9 is used for drawing blood oxygen levels according to oximetry data; Meter step data detection module 10 is used for detecting exercise data according to the indication of control processing module 7, obtains exercise data; Meter step data processing module 11 is used for measuring the motion step number according to exercise data.Wherein, the modules in the oximeter pacing amount module can be measured blood oxygen levels, motion step number or blood oxygen levels and motion step number under the control of control processing module 7.

Oximeter step measuring instrument can possess three kinds of mode of operations: Oximetry pattern, meter pacing amount pattern and oximeter pacing amount pattern.Wherein, the Oximetry pattern is the mode of operation only blood oxygen levels measured, the mode of operation of meter pacing amount pattern for only the motion step number being measured, the mode of operation of oximeter pacing amount pattern for simultaneously blood oxygen levels and motion step number being measured.Particularly, can realize oximeter is gone on foot by control processing module 7 selection of measuring instrument mode of operation.Control processing module 7 can be controlled oximetry data acquisition module 8 and carry out corresponding operation, to realize the Oximetry pattern; Control processing module 7 can be controlled meter step data detection module 10 and carry out corresponding operation, to realize pacing amount pattern; Control processing module 7 can control simultaneously oximetry data acquisition module 8 and meter step data detection module 10 is carried out corresponding operation, to realize oximeter pacing amount pattern.

Alternatively, measuring instrument also comprises: the communication module 12 that is connected with oximeter pacing amount module oximeter step.Communication module 12 is used 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 concrete for according to the setting-up time interval blood oxygen levels and/or motion step number being sent to data handling equipment.Preferably, data handling equipment can comprise terminal unit or the webserver.Particularly, communication module 12 can be connected with the communication module 12 in the oximeter pacing amount module, and the communication module 12 concrete indications that are used for according to control processing module 7 are sent to data handling equipment according to the setting-up time interval with blood oxygen levels and/or motion step number.But oximeter pacing amount module Real-time Measuring measures physiological parameter, that is: blood oxygen levels and/or motion step number, but all physiological parameters of can not will measuring all export communication module 12 to.Oximetry data processing module 9 can export blood oxygen levels to control processing module 7, meter step data processing module 11 can export the motion step number to control processing module 7, control processing module 7 can export blood oxygen levels and/or motion step number to communication module 12 according to the 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, the setting-up time interval can arrange according to user's needs, then setting-up time can be set to less value if the user need to store more physiological parameter, then setting-up time can be set to larger value if the user need to store less physiological parameter.For example: if setting-up time is spaced apart 30 seconds, then control blood oxygen levels and/or the motion step number that processing module 7 will measure and export communication module 12 to when 30 seconds arrive, the blood oxygen levels that all the other are measured constantly and/or motion step number can export communication module 12 to.Wherein, communication module 12 preferably is sent to data handling equipment by wireless communication technology with blood oxygen levels and/or motion step number.For example: communication module 12 comprises wifi unit, bluetooth unit or infrared unit.Wherein, if communication module 12 comprises bluetooth unit, then correspondingly data handling equipment is also answered 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, enumerates no longer one by one herein.

In the present embodiment, oximetry data acquisition module 8 comprises: be used for sending the luminous tube 81 of optical signal and be used for receiving optical signals also generates oximetry data according to the optical signal that receives receiving tube 82.Luminous tube 81 is oppositely arranged with receiving tube 82, forms the first cavity 21, the second cavity 22 that forms between lower middle cover 2 and the lower cover 4 between middleupper cover 1 and the loam cake 3.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 when inner, luminous tube 81 sends optical signal, is transmitted to receiving tube 82 after the decay of this optical signal through the tissue of finger position, and receiving tube 82 receiving optical signals also generate oximetry data according to optical signal.

In the present embodiment, meter step data detection module 10 can be acceleration transducer, for example piezoelectric acceleration transducer, capacitance acceleration transducer or thermal-induction type acceleration transducer.At this moment, meter step data detection module 10 detected exercise datas are acceleration of motion, then count step data processing module 11 and can measure the motion step number according to acceleration of motion.

Alternatively, oximeter pacing amount module can also comprise: denoising module 13.Oximetry data acquisition module 8 also is used for exporting oximetry data to denoising module 13 according to the indication of control processing module 7; Denoising module 13 is used for that oximetry data is removed motion noise to be processed, and the oximetry data after will processing exports oximetry data processing module 9 to.The oximetry data that collects in the present embodiment is more accurate after processing by the removal motion noise of denoising module 13, thereby so that the blood oxygen levels that oximetry data processing module 9 draws is also more accurate.

Alternatively, oximeter pacing amount module can also comprise: alarm module 14.Control processing module 7 also is used for judging that blood oxygen levels whether less than setting value, if judge blood oxygen levels less than setting value, sends alarm signal to alarm module; Alarm module 14 is used for sending alarm according to alarm signal.It is excessively low that this alarm can be used for the prompting user blood oxygen levels.Wherein, alarm one of comprises in auditory tone cues, picture cues, the vibration prompt or combination in any.

Alternatively, oximeter pacing amount module can also comprise: reminding module 15.Control processing module 7 also draws motion step number total amount value for the motion step number in the setting-up time section is added up, judge whether this motion step number total amount value is greater than or equal to predetermined target value, if send to reminding module 15 when judging motion step number total amount value and being greater than or equal to predetermined target value and encourage cues, if send the supervision cues to reminding module 15 when judging motion step number total amount less than predetermined target value.Reminding module 15 is used for perhaps sending supervision message according to the supervision cue according to encouraging cue to send encouragement information.Wherein, when motion step number total amount during less than predetermined target value, can know and pay attention to supervision message for guaranteeing the user, reminding module 15 can regularly send supervision message according to supervising cue.Wherein, encouragement information can comprise: one of in acoustic information, light information, Word message, image information, animation information, the vibration information or its combination in any; Supervision message can comprise: one of in acoustic information, light information, Word message, image information, animation information, the vibration information or its combination in any.

Alternatively, measuring instrument can possess sleep pattern oximeter step.Under this sleep pattern, control processing module 7 also for the acceleration of motion that detects according to meter step data detection module 10, draws sleep information, and this sleep information comprises: time for falling asleep, nocturnalism number of times and/or wake-up time.And control processing module 7 also can be according to setting out wakeup time the length of one's sleep, and this wakeup time is the time of waking the user up.Further, control processing module 7 also is used for will sleeping information output to communication module 12, should sleep information be sent to data handling equipment by communication module 12, this sleep information is processed forming visual sleep data for data handling equipment.

Alternatively, this oximeter pacing amount module can also comprise: display module.This display module is used for according to the indication of control processing module 7 blood oxygen levels and/or motion step number being shown.This display module is not shown in the drawings.

Alternatively, oximeter pacing amount module can also comprise: memory module 16.Oximeter pacing amount module also is used for exporting blood oxygen levels and/or motion step number to memory module 16.Memory module 16 is used for blood oxygen levels and/or motion step number are stored.In the situation that shortage data handling equipment or communication module can't be connected to data handling equipment, can store by the 16 pairs of blood oxygen levels of memory module and/or the motion step number that arrange, thereby avoid losing of blood oxygen levels and/or motion step number.

In the present embodiment, in the oximeter pacing amount module, outside the 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: be used for the supply unit of power supply, this supply unit can be arranged in the first cavity 21 or the second cavity 22.For example: this supply unit can be battery.

The oximeter step measuring instrument of the present embodiment need not to adopt spring structure, thereby has avoided producing in the measuring process jump ring problem; The oximeter of the present embodiment step instrument adopts the elastomeric element in the terminal connecting portion outside that is sheathed on middleupper cover and lower middle cover, makes in the measuring process chucking power of holding finger even, thereby makes the user feel comfortable.Further, the oximeter step measuring instrument that the present embodiment provides comprises oximeter pacing amount module and communication unit, the physiological parameter that communication unit can be measured oximeter pacing amount module is sent to data handling equipment, for data handling equipment physiological parameter is stored, thereby realized a large amount of physiological parameter of measuring is stored.When the user need to carry that this oximeter step, measuring instrument was gone out, can this oximeter step measuring instrument be clipped in collar, pocket, belt or wrist strap equipotential by the chucking power between middleupper cover and the lower middle cover is set up, be convenient for carrying, and can when needs are measured, at any time this oximeter step measuring instrument be brought and measure.Particularly when the user need to use this oximeter step measuring instrument to measure the motion step number under the meter step mode, can directly this oximeter step measuring instrument be clipped in collar, pocket, belt or wrist strap equipotential and be set up, measure during convenient motion.The oximeter step measuring instrument of the present embodiment is simple in structure, be easy to make, and manufacturing cost is lower.

Being connected the oximeter step measuring instrument that articulation pivot is connected with lower house with upper shell in the prior art compares, the oximeter step measuring instrument that the present embodiment provides need not to arrange the articulation pivot structure, thereby thickness and the volume of oximeter step measuring instrument have been effectively reduced, so that oximeter step measuring instrument is more frivolous and small and exquisite, more convenient to carry, and adopt elastic construction can keep to a greater extent chucking power, so that measurement result is more accurate.

Have a kind of blood oxygen measuring device in the prior art, be provided with on the upper shell in this blood oxygen measuring device and have elastic endless belt, the two ends of endless belt are connected on two sides of upper shell, and the endless belt bottom is set on the lower house.Compare with this blood oxygen measuring device in the prior art, the present embodiment need not to adopt the zonary structure that is arranged at upper shell and lower house outside, be positioned at inner elastomeric element but adopt, thereby effectively reduced thickness and the volume of oximeter step measuring instrument, operate easier; And adopt elastic construction can keep to a greater extent chucking power, so that measurement result is more accurate.

A kind of oximeter that Fig. 3 provides for this utility model embodiment two goes on foot the structural representation of measuring instrument, as shown in Figure 3, measuring instrument comprises on the basis of the first extension and the second extension scheme oximeter step in above-described embodiment one, and the oximeter of the present embodiment step measuring instrument also comprises: be arranged at the first fixed part 24 on middleupper cover 1 outer surface and be arranged at the second fixed part 25 on lower middle cover 2 outer surfaces.The 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 equal in length of the length of the first fixed part 24 and the first extension 17, the equal in length of the length of the second fixed part 25 and the second extension 18.When bending section 6 opens certain angle, the first extension 17 drives middleupper cover 1 by the first fixed part 24 and opens, and the second extension 18 drives lower middle cover 2 by the second fixed part 25 and opens.

Wherein, the modules in the 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 the oximeter step measuring instrument can be arranged on the 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 inside of the first fixed part 24 or the second fixed part 25 can be provided with the structure of fixing circuit board, to guarantee that circuit board can be fixed in the inside of the first fixed part 24 or the inside of the second fixed part 25.

A kind of oximeter that Fig. 4 provides for this utility model embodiment three goes on foot the structural representation of measuring instrument, 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.

A kind of oximeter that Fig. 5 provides for this utility model embodiment four goes on foot the partial structurtes schematic diagram of measuring instrument, as shown in Figure 5, on the basis of above-described embodiment two, the oximeter of the present embodiment step measuring instrument also comprises: elastomeric element 23, elastomeric element 23 is wrapped in the outside of bending section 6.Need to prove: the present embodiment has only drawn the partial structurtes of oximeter step measuring instrument for the function of explanation elastomeric element 23.The arc that is shaped as an end opening of bending section 6, the two ends of bending section 6 respectively be connected extension 17 be connected extension 18 and connect.The arc that is shaped as an end opening of elastomeric element 23, the size of elastomeric element 23 are slightly larger than the size of bending section 6 so that elastomeric element 23 can be wrapped in the outside of 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 larger material of elasticity.Fig. 6 is the application schematic diagram of oximeter step measuring instrument among Fig. 5, as shown in Figure 5 and Figure 6, when finger enters the cavity volume 41 from porch 5, bending section 6 opened with certain angle, this moment the first extension 17 and the second extension 18 opened with certain angle, make between middleupper cover 1 and the lower middle cover 2 also opened with certain angle to hold finger, at this moment, opened with certain angle between upper shell and the lower house.Because the elasticity of bending section 6 is larger, its expandable angle is also larger, this angle in addition can arrive 180 the degree, therefore if bending section 6 outsides do not arrange elastic piece structure 23, terminal interconnective middleupper cover 1 and lower middle cover 2 (can with reference to shown in the figure 3) can be because the angle that bending section 6 opens be excessive fracture.Therefore, for preventing terminal interconnective middleupper cover 1 and lower middle cover 2 fractures, 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 larger material of rigidity.Because the rigidity of elastic piece structure 23 is stronger, therefore can play restriction to the angle that bending section 6 opens.When finger enters the cavity volume 41 from porch 5, bending section 6 has opened certain angle, the first extension 17 and the second extension 18 have opened certain angle, make opened with certain angle between middleupper cover 1 and the lower middle cover 2, but elastic piece structure 23 defines the angle that bending section 6 opens, terminal interconnective middleupper cover 1 and lower middle cover 2 fractures have effectively been prevented, thereby strengthened the service life of this oximeter step measuring instrument, and increased the elastic piece structure that possesses restriction so that user's wearing more comfortable, and so that the measurement result of oximeter step measuring instrument is 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, and perhaps the material of bending section 6 and elastic piece structure 23 can be plastics.Need to prove, bending section among Fig. 16 adopts two-wires only to draw to possess certain thickness for expressing bending section 6, and the bending section 6 employing single lines among Fig. 5 only draw as making a signal, and bending section 6 is identical with bending section 6 structures among Figure 15 among Fig. 5; In like manner, the first extension 17 and the second extension 18 adopt two-wire to draw only for expressing certain thickness among Fig. 1.And the first extension 17 among Fig. 5 and the second extension 18 adopt single line to draw only for making a signal.

A kind of oximeter that Fig. 7 provides for this utility model embodiment five goes on foot the partial structurtes schematic diagram of measuring instrument, as shown in Figure 7, oximeter step measuring instrument of providing of the present embodiment and the difference of above-described embodiment one are: elastomeric element integral plaster close middle cover and lower middle cover setting.Elastomeric element can comprise bending section 19, the first extension 17 and the second extension 18, wherein, the shape of bending section 19 is identical with the shape of the terminal connecting portion of middleupper cover and lower middle cover, the outside of the terminal connecting portion of bending section 19 applyings and middleupper cover and lower middle cover, and the first extension 17 can be fixed in by bonding mode on the outer surface of middleupper cover, the second extension 18 can be fixed on the outer surface of lower middle cover by bonding mode, middle cover and lower middle cover setting thereby realization elastomeric element integral plaster closes.Further, the oximeter step measuring instrument of the present embodiment can also comprise elastic piece structure 28, specific descriptions to elastic piece structure 28 can be referring to the description among the embodiment four, no longer specifically describe herein and accompanying drawing in no longer specifically draw the shape of elastic piece structure 28 and bending section 19 identical in the present embodiment wherein.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.Need to prove: the oximeter step measuring instrument of the present embodiment only shows partial structurtes, can be referring to the description among the embodiment one to the description of remaining part.

A kind of oximeter that Fig. 8 provides for this utility model embodiment six goes on foot the partial structurtes schematic diagram of measuring instrument, 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, the first extension 17 and the second extension 18, bending section 20 be shaped as bending structure, this bending structure is the square of an end opening.Further, the oximeter step measuring instrument of the present embodiment can also comprise elastic piece structure 29, specific descriptions to elastic piece structure 29 can be referring to the description among the embodiment four, no longer no longer specifically draw in specific descriptions and the accompanying drawing herein, wherein the shape of elastic piece structure 29 and bending section 20 identical in the present embodiment also is 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.Need to prove: the oximeter step measuring instrument of the present embodiment only shows partial structurtes, can be referring to the description among the embodiment one to the description of remaining part.

A kind of oximeter that Fig. 9 provides for this utility model embodiment seven goes on foot the structural scheme of mechanism of measuring instrument, as shown in Figure 9, on the basis of embodiment one, the oximeter step measuring instrument of the present embodiment also comprises: be positioned at the first latch structure 26 and the second latch structure 27 that is positioned on the lower middle cover 2 on the middleupper cover 1, to be fixed on the middleupper cover 1, the second extension 18 inserts in the second latch structure 27 to be fixed on the lower middle cover 2 in the first extension 17 insertions the first latch structure 26.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 cooperating the installation of luminous tube 81 and receiving tube 82, can offer some pore structures at middleupper cover 1, the 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 this utility model embodiment 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 be used for measuring the oximeter pacing amount module of physiological parameter, described upper shell comprises loam cake and middleupper cover, described lower house lid comprises lower cover and lower middle cover, be formed be used to the cavity volume that holds finger between the end connection of the terminal and described lower middle cover of described middleupper cover and described middleupper cover and the described lower middle cover, the porch of described cavity volume is between the front end of the front end of described middleupper cover and described lower middle cover, described elastomeric element is sheathed on the outside of the terminal connecting portion of described middleupper cover and described lower middle cover, wherein, measuring instrument 1 also comprises: the communication module that is connected with oximeter pacing amount module oximeter step.

Oximeter pacing amount module also is used for physiological parameter is sent to communication module; Communication unit is used for physiological parameter is sent to data handling equipment; Data handling equipment is used for physiological parameter is stored.

Oximeter pacing amount module specifically is used for Real-time Measuring and measures physiological parameter, and exports described physiological parameter to communication module according to the setting-up time interval.

Specific descriptions to oximeter step measuring instrument 1 can referring to each embodiment of above-mentioned oximeter step measuring instrument, repeat 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.The user can go on foot the physiological parameter that measuring instrument is measured by the terminal unit storage oximeter of oneself after the use oximeter step, measuring instrument was measured physiological parameter.Like this, the user can directly check the physiological parameter of measuring at the terminal unit of oneself.Wherein, if data handling equipment is the webserver, then the user can be by webserver stores oximeter step measuring instrument after the use oximeter step, measuring instrument was measured physiological parameter.When the user need to check physiological parameter, can log in the website that is set up on this webserver, check the physiological parameter of storage.Than terminal unit, the webserver can be stored 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 is used for that also the blood oxygen levels of storing in the setting cycle is carried out computing and generates blood oxygen meansigma methods and/or generate the oxigram table according to the blood oxygen levels of storing in the setting cycle.

Particularly, if physiological parameter comprises the motion step number, data handling equipment is used for that also the motion step number of storing in the setting cycle is carried out computing and generates motion step number meansigma methods and/or generate motion step number chart according to the motion step number of storing in the setting cycle.

Particularly, if physiological parameter comprises blood oxygen levels and motion step number, data handling equipment is used for that also the blood oxygen levels of storing in the setting cycle is carried out computing and generates blood oxygen meansigma methods, generates the oxigram table, the motion step number of storing in the setting cycle is carried out computing generation motion step number meansigma methods, generated motion step number chart and/or generate blood oxygen levels and motion step number corresponding relation figure according to the blood oxygen levels of storing in the setting cycle and motion step number according to the motion step number of storing in the setting cycle according to the blood oxygen levels of storing in the setting cycle.

In this utility model, setting cycle can be arranged according to self needs by the user, for example: if the user needs the analysis result in month, can be set to one month by setting cycle.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, communication unit can be sent to data handling equipment with physiological parameter, by data handling equipment physiological parameter is stored, thereby has realized a large amount of physiological parameter of measuring is stored.Data handling equipment can also be carried out analyzing and processing to physiological parameter, draw all kinds of analysis results of physiological parameter for reference, the user can be known according to analysis result the health of self, thereby makes the user and grasp more comprehensively and accurately the health of self.

Be understandable that, above embodiment only is the illustrative embodiments that adopts for principle of the present utility model is described, yet this utility model is not limited to this.For those skilled in the art, in the situation that do not break away from spirit of the present utility model and essence, can make various modification and improvement, these modification and improvement also are considered as protection domain of the present utility model.

Claims (18)

1. an oximeter goes on foot measuring instrument, it is characterized in that, comprise: upper shell, lower house, elastomeric element and be used for measuring the oximeter pacing amount module of physiological parameter, described upper shell comprises loam cake and middleupper cover, described lower house lid comprises lower cover and lower middle cover, the end of described middleupper cover be connected the end of lower middle cover and connect the outside that described elastomeric element is sheathed on the terminal connecting portion of described middleupper cover and described lower middle cover.

2. oximeter according to claim 1 step measuring instrument is characterized in that, is formed be used to the cavity volume that holds finger between described middleupper cover and the described lower middle cover, and the porch of described cavity volume is between the front end of the front end of described middleupper cover and described lower middle cover.

3. oximeter step measuring instrument according to claim 1 is characterized in that, described middleupper cover and described lower middle cover are symmetrical arranged.

4. oximeter step measuring instrument according to claim 1 is characterized in that, described elastomeric element comprises: bending section.

5. oximeter step measuring instrument according to claim 4 is characterized in that, an end of described bending section is fixed on the described middleupper cover, and the other end of described bending section is fixed in described lower covering.

6. oximeter according to claim 4 goes on foot measuring instrument, it is characterized in that, described elastomeric element also comprises: the first extension and the second extension, and an end of described bending section extends described the first extension, and the other end of described bending section extends described the second extension.

7. oximeter step measuring instrument according to claim 6 is characterized in that, described the first extension is fixed on the outer surface of described middleupper cover, and described the second extension is fixed on the outer surface of described lower middle cover.

8. oximeter step measuring instrument according to claim 6 is characterized in that, described oximeter step measuring instrument also comprises: be arranged at the first fixed part and the second fixed part that is arranged on the described lower middle cover outer surface on the described middleupper cover outer surface;

Described the first extension is fixed on the outer surface of described middleupper cover, and described the second extension is fixed on the outer surface of described lower middle cover.

9. oximeter step measuring instrument according to claim 8 is characterized in that the equal in length of the length of described the first fixed part and described the first extension, the equal in length of the length of described the second fixed part and described the second extension; Perhaps

The length of described the first fixed part is greater than the length of described the first extension, and the length of described the second fixed part is greater than the length of described the second extension.

10. oximeter according to claim 1 step measuring instrument is characterized in that, the described elastomeric element setting of fitting of described loam cake and described lower cover, perhaps described loam cake and described lower cover and described elastomeric element maintenance certain distance setting.

11. oximeter according to claim 1 step measuring instrument is characterized in that, described elastomeric element fit described middleupper cover and described lower middle cover setting.

12. oximeter step measuring instrument according to claim 1 is characterized in that the width of described elastomeric element is less than the width of described upper shell, and the width of described elastomeric element is less than the width of described lower house;

The quantity of described elastomeric element is a plurality of, and a plurality of described elastomeric element is set up in parallel on width.

13. oximeter step measuring instrument according to claim 1 is characterized in that, is provided with some projections on the medial surface of described middleupper cover, is provided with some projections on the medial surface of described lower middle cover.

14. oximeter step measuring instrument according to claim 6 is characterized in that, described oximeter step measuring instrument also comprises: elastic piece structure, described elastic piece structure is wrapped in the outside of described bending section.

15. oximeter step measuring instrument according to claim 6, it is characterized in that, described oximeter step measuring instrument also comprises: be positioned at the first latch structure and the second latch structure that is positioned on the described lower middle cover on the described middleupper cover, described the first extension inserts in described the first latch structure to be fixed on the described middleupper cover, and described the second extension inserts in the second latch structure to be fixed in described lower covering.

16. oximeter step measuring instrument according to claim 4 is characterized in that,

The arc that is shaped as an end opening of described bending section;

The shape of described bending section is identical with the shape of the terminal connecting portion of described middleupper cover and described lower middle cover; Perhaps,

The described bending structure that is shaped as, described bending structure are the square of an end opening.

17. a data handling system is characterized in that, comprising: data handling equipment and the claims 1 described oximeter step measuring instrument, oximeter step measuring instrument also comprises the communication module that is connected with described oximeter pacing amount module;

Described oximeter pacing amount module also is used for described physiological parameter is sent to described communication module;

Described communication unit is used for described physiological parameter is sent to data handling equipment;

Described data handling equipment is used for described physiological parameter is stored.

18. data handling system according to claim 17 is characterized in that, described data handling equipment comprises: terminal unit or the webserver.

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