CN105902258A - Automatic blood pressure measurement starting method and electronic sphygmomanometer - Google Patents

Abstract

The invention discloses an automatic blood pressure measurement starting method and an electronic sphygmomanometer. The method includes the first judgment step for judging whether a first sensor is triggered or not, the first detection step for detecting whether the triggering duration time of the first sensor is larger than or equal to a first preset threshold, the second judgment step for judging whether a second sensor is triggered or not when the triggering duration time of the first sensor is larger than or equal to the first preset threshold, the second detection step for detecting whether the triggering duration time of the second sensor is larger than or equal to a second preset threshold, and the measurement step for starting the blood pressure measurement when the triggering duration time of the second sensor is larger than or equal to the second preset threshold. According to the automatic blood pressure measurement starting method and the electronic sphygmomanometer, user operation can be reduced, use is convenient for a user, the sphygmomanometer is more intelligent, and the blood pressure measurement can be automatically started after the user wears a sleeve strap.

Description

A kind of method automatically turning on blood pressure measurement and electronic sphygmomanometer

Technical field

The present invention relates to a kind of blood pressure measurement technology, particularly relate to a kind of method automatically turning on blood pressure measurement for electronic sphygmomanometer and the electronic sphygmomanometer of blood pressure measurement can be automatically turned on.

Background technology

Along with raising and the aggravation of aging of people's living standard, the incidence of disease of hypertension is the most in rising trend.Domestic electronic sphygmomanometer, for tradition mechanical type sphygmomanometer, operates simpler, can be completed the measurement of blood pressure by user at home voluntarily, the most increasingly receive an acclaim.The workflow of existing electronic sphygmomanometer is: user wears cuff, presses measurement key, and sphygmomanometer measures；Measurement terminates, and shows measurement result.

Use to further facilitate user, reduce user operation, it is necessary to make electronic sphygmomanometer more intelligent.Accordingly, it is desirable to provide a kind of electronic sphygmomanometer that can automatically turn on blood pressure measuring method and blood pressure measurement can be automatically turned on.

Summary of the invention

The invention aims to the defect overcoming prior art to exist, it is provided that a kind of electronic sphygmomanometer that can automatically turn on blood pressure measuring method and blood pressure measurement can be automatically turned on.In order to realize this purpose, the technical solution used in the present invention is as follows.

First aspect according to the embodiment of the present invention, it is provided that a kind of method automatically turning on blood pressure measurement for electronic sphygmomanometer, wherein said electronic sphygmomanometer includes: is arranged on sphygmomanometer girding reverse side and is suitable to the first sensor triggered by user's skin；Being arranged on trigger and second sensor in sphygmomanometer girding front, after cuff is worn, described trigger can trigger described second sensor；Described method includes: first judges step, is used for judging whether first sensor is triggered；Whether first detecting step, for detecting duration that first sensor is triggered more than or equal to the first predetermined threshold；Second judges step, for when the duration that first sensor is triggered is more than or equal to the first predetermined threshold, it is judged that whether the second sensor is triggered；Second detecting step, is triggered duration that device triggers whether more than or equal to the second predetermined threshold for detection the second sensor；And measuring process, for when the duration that the second sensor is triggered is more than or equal to the second predetermined threshold, proceeding by blood pressure measurement.

According to an embodiment, optionally, the described method automatically turning on blood pressure measurement for electronic sphygmomanometer also includes forwarding step, for when the duration that the second sensor is triggered is more than or equal to the second predetermined threshold, sends the information carrying out blood pressure measurement to sphygmomanometer processor.

According to further embodiment, judge that step and described second judges in step described first, if described first sensor or described second sensor are not triggered, then keep holding state；In described first detecting step and described second detecting step, if the duration being triggered is respectively smaller than described first predetermined threshold or described second predetermined threshold, then keep holding state.

According to another embodiment, optionally, in described second detecting step, also include whether the duration that detection first sensor is triggered is more than or equal to the first predetermined threshold and the second predetermined threshold sum.

Second aspect according to the embodiment of the present invention, it is provided that a kind of electronic sphygmomanometer automatically turning on blood pressure measurement, including cuff, sphygmomanometer main body and be in processor therein, in addition, also include: first sensor, be arranged on described cuff reverse side, and be suitable to be triggered by user's skin；Trigger, is arranged on described cuff front；And second sensor, it is arranged on described cuff front；Wherein after cuff is worn, described trigger is suitable to trigger described second sensor.

According to an embodiment, optionally, the electronic sphygmomanometer of described automatically turned on blood pressure measurement also includes: microprocessor, is arranged on described cuff, is connected with described first sensor and described second sensor；And wireless communication module, it is arranged on described cuff, is connected with described microprocessor；Wherein said microprocessor can be with the processor communication in sphygmomanometer main body by described wireless communication module.

According to further embodiment, it is preferred that described first sensor is arranged on the cuff reverse side near sites corresponding to the valve in cuff front.

According to another embodiment, it is preferred that described trigger is strip, it is disposed longitudinally on the middle part in cuff front along cuff, and is between cohesive cloth and cuff face cloth.

According to another embodiment, it is preferred that described second sensor is arranged near cuff VELCRO side in the middle part of cuff.

According to yet another embodiment, it is preferred that described second sensor includes sensor array.

According to still further embodiment, it is preferred that described first sensor includes capacitive touch key panel, temperature sensor, electrode, or photoelectric sensor；Described trigger and described second sensor include capacitance touch type mated with one another or induction trigger and sensor.

Blood pressure measuring method and electronic sphygmomanometer according to the embodiment of the present invention, it is possible to reduce user operation, be user-friendly to, make sphygmomanometer more intelligent, blood pressure measurement can be automatically turned on after user has worn cuff.

Being specifically described the present invention below in conjunction with accompanying drawing and by embodiment, the most identical or essentially identical parts use identical reference instruction.

Accompanying drawing explanation

Fig. 1 is the indicative flowchart of the blood pressure measuring method for electronic sphygmomanometer according to one embodiment of the invention；

The indicative flowchart of course of work when Fig. 2 a is to measure according to the blood pressure measuring method of one embodiment of the invention；

The indicative flowchart of course of work when Fig. 2 b is to measure according to the blood pressure measuring method of another embodiment of the present invention；

Fig. 3 is local (cuff reverse side) schematic diagram of the electronic sphygmomanometer of the automatically turned on blood pressure measurement according to one embodiment of the invention；

Fig. 4 is the schematic diagram of cuff front shown in Fig. 3；

Fig. 5 is local (cuff front) schematic diagram of the electronic sphygmomanometer of the automatically turned on blood pressure measurement according to another embodiment of the present invention.

Detailed description of the invention

As it is shown in figure 1, be the indicative flowchart of the blood pressure measuring method for electronic sphygmomanometer according to one embodiment of the invention.Wherein said electronic sphygmomanometer includes: is arranged on sphygmomanometer girding reverse side and is suitable to the first sensor triggered by user's skin；Being arranged on trigger and second sensor in sphygmomanometer girding front, after cuff is worn, described trigger can trigger described second sensor；Wherein said first sensor and described second sensor are connected with the processor of electronic sphygmomanometer.Wherein said method specifically includes that the first judgement step 100, the first detecting step 102, and second judges step 104, the second detecting step 106, and measuring process 110.In another embodiment, optionally, described method may also include forwarding step 108, now, is additionally provided with for controlling described first sensor and described second sensor microprocessor and for the wireless communication module communicated with the processor of electronic sphygmomanometer on cuff.

Wherein first judges that step 100 is used for judging whether first sensor is triggered；Whether the duration that the first detecting step 102 is triggered for detecting first sensor is more than or equal to the first predetermined threshold；Second judges that step 104 is for when the duration that first sensor is triggered is more than or equal to the first predetermined threshold, it is judged that whether the second sensor is triggered；Whether second detecting step 106 is triggered duration that device triggers more than or equal to the second predetermined threshold for detection the second sensor；Forwarding step 108, for when the duration that the second sensor is triggered is more than or equal to the second predetermined threshold, sends the information carrying out blood pressure measurement to sphygmomanometer processor；And measuring process 110 is for when the duration that the second sensor is triggered is more than or equal to the second predetermined threshold, proceeding by blood pressure measurement.The time that wherein value of the first predetermined threshold and the second predetermined threshold wears cuff different step according to user sets, and the most in one embodiment, the first predetermined threshold can be set to about 3 seconds, and the second predetermined threshold can be set to about 1 second.In other embodiments, for the user that operational motion is slower or older, can be set to about 5 seconds by the first predetermined threshold, the second predetermined threshold is set to about 3 seconds etc..

Moreover it is preferred that in other embodiments, the second detecting step 106 also includes whether the duration that detection first sensor is triggered is more than or equal to the first predetermined threshold and the second predetermined threshold sum.According to this embodiment, it is ensured that the duration that the second sensor is triggered reach the second predetermined threshold whole during, first sensor is always maintained at triggering state.Thus, false triggering can be avoided further, reduce false triggering rate.

As shown in Figure 2 a, the indicative flowchart of course of work when being to measure according to the blood pressure measuring method of one embodiment of the invention.After frame 200 electronic sphygmomanometer powers on and starts working, in frame 202, electronic sphygmomanometer enters holding state；Then, in frame 204, judge whether first sensor is triggered (step 100), if be not triggered, then return the holding state of frame 202, if be triggered, then enter whether the duration that in frame 206, detection first sensor is triggered is more than or equal to the first predetermined threshold i.e. threshold value 1(step 102)；If less than the first predetermined threshold, then return the holding state of frame 202, if greater than equal to the first predetermined threshold, then enter in frame 208 and judge whether the second sensor is triggered (step 104)；If be not triggered, then returning the holding state of frame 202, if be triggered, then entering in frame 210 and whether detecting time that the second sensor is triggered more than or equal to the second predetermined threshold i.e. threshold value 2(step 106)；If less than the second predetermined threshold, then return the holding state of frame 202, if greater than equal to the second predetermined threshold, it is determined that user has worn cuff, and sphygmomanometer equipment starts to carry out blood pressure measurement (step 110) to cuff inflation in block 212；Subsequently, measurement process is terminated at frame 214.

As shown in Figure 2 b, the indicative flowchart of course of work when being to measure according to the blood pressure measuring method of another embodiment of the present invention, it is substantially the same with the course of work shown in Fig. 2 a, difference is: in block 210 (i.e. step 106), except detecting be triggered duration that device triggers of the second sensor whether more than or equal to the second predetermined threshold, whether the duration that the most also detection first sensor is triggered is more than or equal to the first predetermined threshold and the second predetermined threshold sum.If these two the most satisfied, then carry out next step blood pressure measurement；If wherein there being one to be unsatisfactory for, then return the holding state of frame 202.

As shown in Figure 3 and Figure 4, it is the partial schematic diagram of the electronic sphygmomanometer of automatically turned on blood pressure measurement according to one embodiment of the invention, sphygmomanometer main body therein and to be in processor therein not shown, merely illustrate cuff and relevant portion.Fig. 3 and Fig. 4 is respectively reverse side and the front of cuff, including: the dotted line in valve 300(Fig. 3 represents the valve opposite side at cuff, i.e. front), the dotted line pilot balloon in air bag 302(Fig. 3 position in cuff), five metals ring 304, face cloth 306, the dotted line instruction positive stop strip position in cuff in positive stop strip 308(figure), VELCRO 310, and cohesive cloth 312.Additionally, also include: first sensor 314, trigger 316, and the second sensor 318, see Fig. 3 and Fig. 4.

Wherein first sensor 314 is arranged on cuff reverse side, and is suitable to be triggered by user's skin.Preferably, in one embodiment, first sensor 314 is arranged on the cuff reverse side near sites corresponding to the valve in cuff front, as shown in Figure 3.User is when wearing cuff, and by the setting of current cuff, needs will connect the position of the valve position alignment arteria brachialis of flexible pipe, to ensure to measure the accuracy of signal.In this embodiment, first sensor 314 is arranged on the cuff reverse side that the valve position with cuff front is generally corresponding to, it is to make first sensor come in contact well with user's skin and being triggered (including directly contacting and mediate contact, such as first sensor is by cuff face cloth and user's skin contact).In one embodiment, first sensor 314 can be capacitive touch key panel, and principle is with capacitance type touch key principle；In yet another embodiment, first sensor 314 can be also temperature sensor, principle be the difference according to temperature judge human body skin whether with cuff engagement；In another embodiment, first sensor 314 is alternatively electrode, principle be the difference according to electrical impedance judge human body skin whether with cuff engagement；In other embodiments, first sensor 314 can be also photoelectric sensor, and principle is according to PPG(photoplethaysmography) signal judge human body skin whether with cuff engagement, etc..According to the kind of first sensor 314, can be disposed on the cloth of cuff face, or also can be disposed between air bag and cuff face cloth.

Wherein trigger 316 and the second sensor 318 are all disposed within cuff front, and after cuff is worn, described trigger 316 is suitable to trigger described second sensor 318.As shown in Figure 4, it is preferred that in one embodiment, described trigger 316 is strip, is disposed longitudinally on the middle part in cuff front along cuff, and is between cohesive cloth and cuff face cloth.Trigger 316 can be conductive material, such as: electric silica gel, conductive rubber etc.；Or trigger 316 can be the material that surface uses conductive material, such as: scribble the plastics etc. of conductive paint.Concrete methods of realizing can be to arrange electric silica gel, conductive rubber between cuff face cloth and cohesive cloth or scribble the plastics etc. of conductive paint.

As it is shown in figure 5, be another embodiment of the trigger 316 in cuff front, it is broader strip relative to the trigger shown in Fig. 4, and trigger 316 can be conductive material, such as: conductive sponge, conductive fiber, conductive film etc.；Or trigger 316 can be the material that surface uses conductive material, such as: the material etc. of band conductive coating.Concrete methods of realizing can be to arrange conductive sponge, conductive fiber, conductive film, the material of band conductive coating between cuff face cloth and cohesive cloth or directly make conductive coating etc. on the cloth of cuff face.

In above-described embodiment, the position of trigger 316 and size depend on position and the scope of application of cuff of the second sensor 318.Such as, the position of the second sensor is in the position of distance cuff head end 36cm, the scope of application of cuff is 22-32cm, consider two kinds of limiting cases: the upper-arm circumference of (1) user is 22cm, when user wears upper cuff, cuff end is fixing through the turnover of five metals ring, and the position of the second sensor can fall in the position (calculating process is: 22-(36-22)=8cm) of distance cuff head end 8cm；(2) upper-arm circumference of user is 32cm, and when user wears upper cuff, cuff end is fixing through the turnover of five metals ring, and the position of the second sensor can fall in the position (calculating process is: 32-(36-32)=28cm) of distance cuff head end 28cm.So, the position of trigger is at the scope of distance cuff head end 8cm-28cm.For the second different sensing stations and the different situations of the cuff scope of application, similar calculating and setting can be carried out according to the method described above.

Preferably, in one embodiment, described second sensor 318 is arranged on cuff VELCRO 310 in the middle part of cuff near side, as shown in Figure 4.It is also preferred that in one embodiment, described second sensor is sensor array, as shown in Figure 4 and Figure 5, for the sensor array of three sensor compositions along cuff lateral arrangement；Of course it is not excluded can also be " 22 ", " 32 ", the various arrays such as " 43 ".The position of the second sensor is positioned close to cuff end, when so user wears cuff, cuff end just can be made trigger and the second sensor contacts through the turnover of five metals ring is fixing and triggers the second sensor, the most preferably the second sensor is arranged on the side (distance cuff end have certain distance but nearby) of VELCRO side in the middle part of cuff, it is to avoid user touches the second sensor when VELCRO is fixed on cohesive cloth by hand-held cuff end and triggers the second sensor.Additionally, the the second sensor purpose arranging three or more than three is: due to different user arm shape, wear the difference of custom, user not necessarily can by cuff end relative in the middle part of cuff parallel over and fix, it is also possible to by cuff end relative in the middle part of cuff at an angle cover and fix.Considering that user wears the difference of cuff actual conditions and respective operations, arrange second sensor of three or more than three, during to ensure that user has worn cuff, trigger can well trigger the second sensor.According to the setting in above-described embodiment, as long as any one in sensor array is triggered, device contact, then can make the second sensor be in triggering state.

In the above-described embodiments, the operation principle of the second sensor and trigger is the principle of capacitance type touch key: when finger or other conductive material touch-control are to panel, panel can be detected the capacitance variations on surface and produce the signal of telecommunication, thus judge touch event.In above-described embodiment, trigger serves as the role of finger or other conductive material, and the second sensor serves as the role of panel, when both contact, touch event i.e. occurs.But the second sensor and trigger may be used without other operation principles to be operated, such as electromagnetic type sensing etc., corresponding operation principle is different, and the second sensor and trigger are also corresponding different.

In the above-described embodiments, first sensor 314 is connected with the processor in sphygmomanometer main body with the second sensor 318, such as by (connecting sphygmomanometer main body and the flexible pipe of cuff along flexible pipe, for to cuff inflation) circuit arranged and/or connector connect sphygmomanometer processor, judged, by sphygmomanometer processor, the duration whether first sensor 314 and the second sensor 318 are triggered and trigger, thereby determine that whether user has worn cuff and decided whether to start blood pressure measurement.By arranging first sensor and the second sensor, can improve whether user has worn the discrimination of cuff, reduce false triggering rate.

In other embodiments, the electronic sphygmomanometer that can automatically turn on blood pressure measurement also includes microprocessor and wireless communication module (not shown).Wherein microprocessor is arranged on described cuff (such as, according to an embodiment, may be provided at the edge of cuff), is connected with described first sensor and described second sensor；Wireless communication module is also disposed on described cuff (such as, according to an embodiment, be arranged on the edge of cuff), is connected with described microprocessor；Wherein said microprocessor can be with the processor communication in sphygmomanometer main body by described wireless communication module.The duration whether being triggered by described microprocessor judges first sensor 314 and the second sensor 318 and being triggered, thereby determine that whether user has been worn cuff and decided whether can be carried out to the transmission of sphygmomanometer processor by described wireless communication module the information of blood pressure measurement.In one embodiment, it is preferred that, described wireless communication module is bluetooth module.Certainly, in other embodiments, described wireless communication module can also is that by RF, the infrared or module of NFC realization communication.In the above-described embodiments, cuff can be provided with independent power supply, such as by button-shaped dry cell power supply.

In the above-described embodiments, either the processor in sphygmomanometer main body be still separately provided for controlling first sensor and the microprocessor of the second sensor, preferably, In yet another embodiment, all can be configured to: detection the second sensor be triggered duration that device triggers whether more than or equal to the second predetermined threshold while, whether the duration that also detection first sensor is triggered more than or equal to the first predetermined threshold and the second predetermined threshold sum.If these two the most satisfied, then start blood pressure measurement；If wherein there being one to be unsatisfactory for, then return holding state.According to the operation principle of electronic sphygmomanometer of automatically turned on blood pressure measurement and the process of the embodiment of the present invention, the most as shown in Figure 2 a and 2 b.

Although additionally, embodiments of the invention are illustrated as a example by arc cuff above, but being equally applicable to the cuff pattern of straight cuff or other band steel rings.Cuff in above-described embodiment is fixed by cohesive cloth and VELCRO, but is not excluded for the most button-shaped, claw type hook formula or other fixed form.

Describe the present invention above by specific embodiment, but the present invention is not limited to these specific embodiments.Those skilled in the art should be understood that, the present invention can also be made various amendment, equivalent, change etc., such as it is divided into two or more steps or parts to realize a step in above-described embodiment or parts, or it is contrary, the function of two or more steps in above-described embodiment or parts is placed in a step or parts and realizes, such as, will determine that step and detecting step merge into step etc..But, these conversion, all should be within protection scope of the present invention without departing from the spirit of the present invention.It addition, some terms that present specification and claims is used, such as " first ", " second " etc., it is not to limit, it is only for be easy to describe.Additionally, " embodiment ", " another embodiment " described in above many places etc. represents different embodiments, naturally it is also possible to it is completely or partially combined in one embodiment.

Claims (11)

1., for the method automatically turning on blood pressure measurement of electronic sphygmomanometer, wherein said electronic sphygmomanometer includes: is arranged on sphygmomanometer girding reverse side and is suitable to the first sensor triggered by user's skin；Being arranged on trigger and second sensor in sphygmomanometer girding front, after cuff is worn, described trigger can trigger described second sensor；It is characterized in that, described method includes:

First judges step, is used for judging whether first sensor is triggered；

Whether first detecting step, for detecting duration that first sensor is triggered more than or equal to the first predetermined threshold；

Second judges step, for when the duration that first sensor is triggered is more than or equal to the first predetermined threshold, it is judged that whether the second sensor is triggered；

Second detecting step, is triggered duration that device triggers whether more than or equal to the second predetermined threshold for detection the second sensor；And

Measuring process, for when the duration that the second sensor is triggered is more than or equal to the second predetermined threshold, proceeding by blood pressure measurement.

2. the method automatically turning on blood pressure measurement for electronic sphygmomanometer as claimed in claim 1, it is characterised in that also include:

Forwarding step, for when the duration that the second sensor is triggered is more than or equal to the second predetermined threshold, sends the information carrying out blood pressure measurement to sphygmomanometer processor.

3. the method automatically turning on blood pressure measurement for electronic sphygmomanometer as claimed in claim 1 or 2, it is characterized in that: judge that step and described second judges in step described first, if described first sensor or described second sensor are not triggered, then keep holding state；In described first detecting step and described second detecting step, if the duration being triggered is respectively smaller than described first predetermined threshold or described second predetermined threshold, then keep holding state.

4. the method automatically turning on blood pressure measurement for electronic sphygmomanometer as claimed in claim 1, it is characterized in that: in described second detecting step, also include whether the duration that detection first sensor is triggered is more than or equal to the first predetermined threshold and the second predetermined threshold sum.

5. can automatically turn on an electronic sphygmomanometer for blood pressure measurement, including cuff, sphygmomanometer main body and be in processor therein, it is characterised in that also include:

First sensor, is arranged on described cuff reverse side, and is suitable to be triggered by user's skin；

Trigger, is arranged on described cuff front；And

Second sensor, is arranged on described cuff front；

Wherein after cuff is worn, described trigger is suitable to trigger described second sensor.

The electronic sphygmomanometer of blood pressure measurement can be automatically turned on the most as claimed in claim 5, it is characterised in that also include:

Microprocessor, is arranged on described cuff, is connected with described first sensor and described second sensor；And

Wireless communication module, is arranged on described cuff, is connected with described microprocessor；

Wherein said microprocessor can be with the processor communication in sphygmomanometer main body by described wireless communication module.

7. the electronic sphygmomanometer of the automatically turned on blood pressure measurement as described in claim 5 or 6, it is characterised in that: described first sensor is arranged on the cuff reverse side near sites corresponding to the valve in cuff front.

8. the electronic sphygmomanometer of the automatically turned on blood pressure measurement as described in claim 5 or 6, it is characterised in that: described trigger is strip, is disposed longitudinally on the middle part in cuff front along cuff, and is between cohesive cloth and cuff face cloth.

9. the electronic sphygmomanometer of the automatically turned on blood pressure measurement as described in claim 5 or 6, it is characterised in that: described second sensor is arranged near cuff VELCRO side in the middle part of cuff.

The electronic sphygmomanometer of blood pressure measurement can be automatically turned on the most as claimed in claim 5, it is characterised in that: described second sensor includes sensor array.

The electronic sphygmomanometer of 11. the automatically turned on blood pressure measurements as described in claim 5 or 6, it is characterised in that: described first sensor includes capacitive touch key panel, temperature sensor, electrode, or photoelectric sensor；Described trigger and described second sensor include capacitance touch type mated with one another or induction trigger and sensor.