CN102160778A - Electronic sphygmomanometer, data processing equipment and data processing method - Google Patents
Electronic sphygmomanometer, data processing equipment and data processing method Download PDFInfo
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- CN102160778A CN102160778A CN2010106049009A CN201010604900A CN102160778A CN 102160778 A CN102160778 A CN 102160778A CN 2010106049009 A CN2010106049009 A CN 2010106049009A CN 201010604900 A CN201010604900 A CN 201010604900A CN 102160778 A CN102160778 A CN 102160778A
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Abstract
The invention discloses an electronic sphygmomanometer, data processing equipment and a data processing method. The electronic sphygmomanometer comprises a blood pressure determination part, a storage part, an operation part, a judgment part and a calculation part, wherein the calculation part consists of a blood pressure average value calculation unit and a display part; the operation part consists of a group of condition input units used for setting the calculation conditions of blood pressure average values, and each condition input unit consists of a parameter type display area and an input area; the storage part is used for storing the blood pressure determination data and the set parameters; the judgment part is used for carrying out combined judgment on whether the blood pressure determination data stored in the storage part meets the set calculation conditions of the blood pressure average values, and taking the blood pressure meeting the conditions as specific data; and the blood pressure average value calculation part is used for calculating the blood pressure average value according to the specific data. According to the electronic sphygmomanometer provided by the invention, a tester can perform more condition setting and condition combinations for calculating the blood pressure average value according to the needs of the tester, and the electronic sphygmomanometer has the advantages of flexibility for selection and combination forms, simple program, concise operation interface and simple structure.
Description
Technical field
The present invention relates to a kind of electric sphygmomanometer, particularly a kind of electric sphygmomanometer that can calculate the mediodespidine average.
Background technology
In recent years, hypertension is one of common disease that is detrimental to health, it is very important thus blood pressure measurement to be carried out health control, mediodespidine average management is effective method comparatively at present, can make the tester understand the blood pressure trend of oneself, improve the treatment interdependence, so that better control hypertension.
Known electric sphygmomanometer can provide the calculating of Zhou Pingjun, monthly average value at present, perhaps carry out the calculating of the mediodespidine average of nearly three measurements, but the many condition buttons with independent setting respectively of above function carry out the selection of calculating blood pressure meansigma methods condition and the exhalation of result of calculation, beyond one's depth on directly perceived, complex operation and above condition be pre-set by sphygomanometer, the gauger can only accept imposing a condition and can not oneself select in advance, and availability is not strong;
Publication number is the electric sphygmomanometer that the patent application of CN1911136 discloses a kind of calculating blood pressure meansigma methods, the selection and the condition combination of more calculating blood pressure meansigma methods condition are provided for the tester, but owing to be subjected to the restriction of sphygomanometer operating unit and program, the selection of these conditions and combination remain limited, and need to set in advance different determining programs according in advance the condition setting and the combined situation of condition, therefore, the program complexity, operation interface is wordy, and the tester can not carry out more calculating blood pressure meansigma methods condition enactment and condition combination according to self needs.
Summary of the invention
The technical problem to be solved in the present invention is to overcome the above-mentioned defective that known technology exists, and provide a kind of program simple, mediodespidine mean value computation condition is selected and the electric sphygmomanometer of the calculating blood pressure meansigma methods that the combination degree is wider, operation interface is succinct, simple in structure.
A kind of electric sphygmomanometer comprises: blood pressure determination portion, and storage part, operating portion, judging part, calculating part, this calculating part comprise a blood pressure average calculation unit, display part,
Described operating portion comprises a set condition input block, be used to set the design conditions of mediodespidine average, each condition entry unit is made up of parameter type viewing area and input area in the described set condition input block, the parameter type viewing area is used to show parameter type to be set, and the input area is used for the scope of parameter is set;
Described storage part is used to store blood-pressure measurement data and the parameter that sets;
Described judging part makes up judgement to the mediodespidine mean value computation the condition whether blood-pressure measurement data that is stored in above-mentioned storage part meets setting, with qualified blood pressure data as particular data;
Described blood pressure average calculation unit calculates the mediodespidine average based on above-mentioned particular data.
As preferred implementation, above-mentioned parameter comprises date, time, high pressure, low pressure, number of times, the described date is between the date field of mediodespidine average to be calculated, the described time is used to set calculates the mediodespidine average of which or which time period in the middle of one day, and the mediodespidine average that described number of times is used to set new blood pressure data is calculated.
Electric sphygmomanometer of the present invention, described input area can be for touching the input area.But preferably have an edit menu in described touch input area, be used for parameter values is selected input.
The parameter area that the present invention has an acquiescence for each described parameter, the default parameters scope of each parameter is in the setup parameter:
When parameter was the date, the parameter area of acquiescence was from date of manufacture~current date;
When parameter was the time, the parameter area of acquiescence was 00:00~23:59;
When parameter was high pressure, the default parameters scope was 0~299;
When parameter was low pressure, the default parameters scope was 0~299;
When parameter was the time, default parameters was the number of times of historical surveying record.
Electric sphygmomanometer of the present invention also comprises an external-connected port, by this external-connected port pulse wave signal, process data and measurement result is uploaded to the outer terminal of taking.
The present invention provides a kind of data processing equipment simultaneously, comprising:
Storage part is used to store the blood pressure determination data;
Operating portion, this operating portion comprises a set condition input block, be used to set the design conditions of mediodespidine average, each condition entry unit is made up of parameter type viewing area and input area in the described set condition input block, parameter type viewing area display parameters title, the input area is used for parameter area is set;
Judging part, the mediodespidine mean value computation condition that whether blood pressure data that is stored in above-mentioned storage part is met setting makes up judgement, with qualified blood pressure data as particular data;
Calculating part calculates the mediodespidine average based on above-mentioned particular data;
Display part, the mediodespidine average that goes out based on aforementioned calculation shows.
Preferably, described parameter comprises date, time, high pressure, low pressure, number of times, the described date is between the date field of mediodespidine average to be calculated, the described time is used to set calculates the mediodespidine average of which or which time period in the middle of one day, and the mediodespidine average that described number of times is used to set new historical data is calculated.
The present invention also provides a kind of data processing method, may further comprise the steps:
Storing step, with the blood pressure determination data storage in storage part;
Input step by a set condition input block that is provided with, is imported the design conditions of specified mediodespidine average;
Determining step, the mediodespidine mean value computation condition that whether blood pressure data that is stored in above-mentioned storage part is met setting makes up judgement, with qualified blood pressure data as particular data;
Calculation procedure calculates the mediodespidine average based on above-mentioned particular data;
Step display, the mediodespidine average that goes out based on aforementioned calculation shows
The present invention compared with prior art has following advantage at least:
By a set condition input block is set at operating portion, set the design conditions of mediodespidine average by the tester, the tester can select the condition of calculating blood pressure meansigma methods and the condition of being concerned about is carried out independent assortment according to self needs; Judging part makes up judgement to the mediodespidine mean value computation the condition whether blood pressure data that is stored in above-mentioned storage part meets setting, just can finish judgement to the combination of all conditions and condition by a program is set thus, and program is simpler;
The input area is for touching the input area, can handled easily;
By each described parameter being provided with the parameter area of acquiescence, make simple to operationly, save time;
By in the touch input area but one edit menu being set, convenient input, hommization more to parameter values;
In sum, the electric sphygmomanometer of calculating mean value provided by the invention, the tester can carry out the combination of more calculating blood pressure meansigma methods condition enactment and condition according to self needs, select and combining form is flexible and program is simple, operation interface is succinct, simple in structure.
The specific embodiment of the present invention is provided in detail by following examples and accompanying drawing thereof.
Description of drawings
Fig. 1 is the schematic appearance of the electric sphygmomanometer of prior art;
Fig. 2 constitutes sketch map for blood pressure measuring device of the present invention;
Fig. 3 is a measuring process fundamental diagram of the present invention;
Fig. 4 is the decision flow chart of judging part of the present invention;
Fig. 5 is the decision flow chart of first embodiment of the invention judging part;
Fig. 6 is the decision flow chart of second embodiment of the invention judging part;
Fig. 7 is the decision flow chart of third embodiment of the invention judging part;
Fig. 8 A-C is the unitary sketch map of condition entry of three embodiment of the present invention; Fig. 8 D is for showing the display part sketch map of meansigma methods;
Fig. 9 A-C is the sketch map of input area of the present invention.
The specific embodiment
Below in conjunction with accompanying drawing and preferred embodiment,, be described in detail as follows structure of the present invention, feature and effect thereof:
As shown in Figure 1 to Figure 3, the invention provides a kind of electric sphygmomanometer 1, comprising:
Mensuration person is wound into cuff and measures on the position (upper arm, wrist), press on the operating portion mensuration/stop key 13, CPU is sent signal.CPU receives operation signal control power-supply unit and begins power supply, enters the electric sphygmomanometer initialization process, discharges residual air in the cuff; Then cuff is pressurizeed, pressure measurement cell detects the influence that the blood pressure pulsation produces the cuff internal pressure in pressure process, be digital signal through the A/D converting unit with measured blood pressure analog signal conversion, microprocessor is to the pulse wave signal that obtains and process data is handled and calculate systolic pressure, diastolic pressure by calculating part 14, measurement of correlation such as pulse, arrhythmia result, after finishing, detection exits fast, its measurement result exists in the storage part, and measurement result is presented on the display part, so far, finish blood pressure measurement one time.In addition, the blood pressure measurement here carries out in pressure process, also can carry out in decompression process.
Described measurement result according to Measuring Time (year. month. the time. divide) by newly being stored in the memory element to old; But be not limited to this storage mode.
Formation to the sphygomanometer operating portion is elaborated below:
Described operating portion comprises a set condition input block 15, is used to set the design conditions of mediodespidine average, and shown in Fig. 8 A-C, described each condition entry unit is made up of parameter type viewing area 16 and input area 17, that is:
[parameter 1] [... the input area ... ..];
[parameter 2] [... the input area ... ..];
[parameter 3] [... the input area ... ..];
[parameter N] [... the input area ... ..];
Preferable, a described set condition input block is made up of date, time, high pressure, low pressure, number of times parameter group, that is:
[date] [... the input area ... ..];
[time] [... the input area ... ..];
[high pressure] [... the input area ... ..];
[low pressure] [... the input area ... ..];
[number of times] [... the input area ... ..];
In addition, can also comprise the pulse parameter, can calculate the Pulse Rate value of averaging thus.
Further, give the parameter area of an acquiescence in advance for each described parameter electric sphygmomanometer;
An above-mentioned set condition input block, can give and following parameter area:
The parameter area of the acquiescence on date for from the date of production/purchase date/measure date~current date the first time, as being the date of production 2010/10/1, current date is 2010/10/31, then the default parameters scope on date is " 2010/10/1~2010/10/31 ";
The parameter area of the acquiescence of time is " 00:00~23:59 ";
Highly compressed default parameters scope is " 0~299 ";
The default parameters scope of low pressure is " 0~299 ";
When parameter was the time, default parameters was the number of times of historical surveying record, was 24 times as historical surveying record, then was shown as 24.
At the mean value calculation interface, the tester can carry out the selection input of parameter area to wherein one or more parameters, and the condition entry unit of not importing is shown as the parameter area of acquiescence;
For example describe as follows below: (seeing Fig. 4-7) to the determining step (hereinafter to be referred as " S ") and the computational process of judging part 18
1) as carrying out parameter following (shown in Fig. 8 A) is set:
[date] [2010/10/1~2010/10/1];
[time] [08:00~08:15];
[high pressure] [0~299]; (acquiescence)
[low pressure] [0~299]; (acquiescence)
[number of times] [24]; (acquiescence)
At the mean value calculation interface as shown in the figure, import above parameter area, judging unit makes the following judgment, and S1 reads in historical measurement data; Enter S2, at first whether judgment data bar number is zero, (being " zero " in S2), then meansigma methods is shown as 0/0, (as not being " zero " among the S2), then enter S3, call in first record, enter S4, judge whether to meet the date requirement, promptly whether meet default value or setting value, here setting value is " 2010/10/1~2010/10/1 ", (being "No" in S4), then enter S5, judge whether to be the last item data, (being "No" in S5) then enters S6, call in the downward modulation record, and return S4, (being "Yes" in S4) then enters S7, judge whether to meet and carry out time requirement, promptly whether meet default value or setting value, setting value is " 08:00~08:15 ", (being "No") in S7 here, then repeat S5, judge whether to be the last item record, (being "No" in S5) then enters S6, call in down the bar record, again return S4, (being "Yes" in S7) then enters S8, judge whether to meet high pressure requirement, promptly whether meeting default value or setting value, is default value " 0~299 " here, (being "Yes" in S8), enter S9, judging whether to meet low pressure request, promptly whether meet default value or setting value, is default value " 0~299 " here, (being "Yes" in S9), enter S10 then, deposit these data in satisfactory data set, deposit temporary storage location 19 in, enter S5 then, judge whether to be the last item data, (being not in S5) then enters S6, call in the downward modulation record, again return S4, repeat above step, be judged as the last item data up to S5, enter S11, the data number in the data set and the number N of setting are compared, according to setting number N, the up-to-date N bar data in the retention data group, delete all the other, here be default number of times 24, the total data in the retention data group is finished total data and is judged to here.
2) as carrying out parameter following (shown in Fig. 8 B) is set:
[date] [2010/10/1~2010/10/1];
[time] [08:00~08:15];
[high pressure] [0~299]; (acquiescence)
[low pressure] [0~299]; (acquiescence)
[number of times] [3];
At the mean value calculation interface as shown in the figure, import above parameter area, judging unit makes the following judgment, and S1 reads in historical measurement data; Enter S2, at first whether judgment data bar number is zero, (being " zero " in S2), then meansigma methods is shown as 0/0, (as not being " zero " among the S2), then enter S3, call in first record, enter S4, judge whether to meet the date requirement, promptly whether meet default value or setting value, here setting value is " 2010/10/1~2010/10/1 ", (being "No" in S4), then enter S5, judge whether to be the last item data, (being "No" in S5), then enter S6, call in the downward modulation record, and return S4, (being "Yes" in S4), then enter S7, judge whether to meet and carry out time requirement, promptly whether meet default value or setting value, here setting value is " 08:00~08:15 ", (being "No" in S7) then repeats S5, judges whether to be the last item record, (being "No" in S5), then enter S6, call in down the bar record, return S4 again, (being "Yes" in S7), then enter S8, judge whether to meet high pressure requirement, promptly whether meet default value or setting value, here be default value " 0~299 ", (being "Yes" in S8) enters S9, judges whether to meet low pressure request, promptly whether meet default value or setting value, here be default value " 0~299 ", (being "Yes" in S9) enters S10 then, deposit these data in satisfactory data set, deposit temporary storage location in, enter S5 then, judge whether to be the last item data, (being not in S5), then enter S6, call in the downward modulation record, return S4 again, repeat above step, be judged as the last item data up to S5, enter S11, the data number in the data set and the number N of setting are compared, according to setting number 3,3 up-to-date data in the retention data group are deleted all the other, finish total data to here and judge.
3) as carrying out parameter following (shown in Fig. 8 C) is set:
[date] [2010/10/1~2010/10/20];
[time] [08:00~08:15];
[high pressure] [140~160];
[low pressure] [0~299]; (acquiescence)
[number of times] [24]; (acquiescence)
At the mean value calculation interface as shown in the figure, import above parameter area, judging unit makes the following judgment, and S1 reads in historical measurement data; Enter S2, at first whether judgment data bar number is zero, (being " zero " in S2), then meansigma methods is shown as 0/0, (as not being " zero " among the S2), then enter S3, call in first record, enter S4, judge whether to meet the date requirement, promptly whether meet default value or setting value, here setting value is " 2010/10/1~2010/10/20 ", (being "No" in S4), then enter S5, judge whether to be the last item data, (being "No" in S5), then enter S6, call in the downward modulation record, and return S4, (being "Yes" in S4), then enter S7, judge whether to meet and carry out time requirement, promptly whether meet default value or setting value, setting value is " 08:00~08:15 " here, (being "No" in S7), then repeat S5, judge whether to be the last item record, (being "No" in S5), then enter S6, call in down the bar record, return S4 again, (being "Yes" in S7), then enter S8, judging whether to meet high pressure requirement, promptly whether meet default value or setting value, is " 140~160 " here, (being "No" in S8), then repeat S5, judge whether to be the last item record, (being "No" in S5), then enter S6, call in the downward modulation record, and return S4, (being "Yes" in S4), then enter S9, judging whether to meet low pressure request, promptly whether meet default value or setting value, is default value " 0~299 " here, (being "Yes" in S9), enter S10 then, deposit these data in satisfactory data set, deposit temporary storage location in, enter S5 then, judge whether to be the last item data, (being not in S5) then enters S6, call in the downward modulation record, again return S4, repeat above step, be judged as the last item data up to S5, enter S11, the data number in the data set and the number N of setting are compared, according to setting number N, the up-to-date N bar data in the retention data group, delete all the other, here be default number of times 24, the total data in the retention data group is finished total data and is judged to here.
The blood pressure average calculation unit is the calculating of the data value of averaging in the satisfactory data set (S12) more than 20 pairs, and show meansigma methods (S13) (shown in Fig. 8 D) by display part.
Preferable, above-mentioned input area is for touching the input area;
In addition, shown in Fig. 9 A-C, but above-mentioned touch input area has an edit menu 21, is used for parameter values is selected input.
Meanwhile, electric sphygmomanometer can comprise that also an external-connected port uploads to the outer terminal (as mobile phone, PDA) of taking by this external-connected port with pulse wave signal, process data and measurement result.
Note, in the present embodiment, this electric sphygmomanometer can only be provided with display unit to keep basic output demand, preferable, this display unit can be removed, utilize outer take terminal (as mobile phone, PDA) powerful memory space and dilatation ability, finish the mass historical data that measurement opens and closes more complicated data computation such as control and mediodespidine average, a plurality of users of storage by taking terminal outward, and by taking terminal screen demonstration measurement result outward, to satisfy lighter, the small and exquisite demand of blood pressure measuring device;
Preferably, described outer to take terminal be a mobile phone, and this mobile phone comprises:
Storage part is used to store the blood pressure determination data;
Operating portion, this operating portion comprise a set condition input block, are used to set the design conditions of mediodespidine average.Judging part, the mediodespidine mean value computation condition that whether blood pressure data that is stored in above-mentioned storage part is met setting judge one by one, with qualified blood pressure data as particular data;
Calculating part calculates the mediodespidine average based on above-mentioned particular data;
Display part, the mediodespidine average that goes out based on aforementioned calculation shows.
Aforesaid operations all can be finished by handset touch panel.
In addition, display unit can provide abundanter demonstration information, and the user can point out by operation interface, selects required function according to self-demand, as carries out related data query etc.
Further, described mobile phone has the network communication unit, link to each other with remote server by network, can with medical service organ or the mutual swap data of tele-medicine platform, thereby realize medical networkization, electronization, meet medical development trend.The above only is preferred embodiment of the present invention, and every foundation technical scheme of the present invention all belongs to the scope of protection of the invention to any simple modification and equivalents that above embodiment carries out.
Claims (10)
1. electric sphygmomanometer comprises: blood pressure determination portion, and storage part, operating portion, judging part, calculating part, this calculating part comprise a blood pressure average calculation unit, and display part is characterized in that,
Described operating portion comprises a set condition input block, is used to set the design conditions of mediodespidine average;
Described storage part is used to store blood-pressure measurement data and the parameter that sets;
Described judging part makes up judgement to the mediodespidine mean value computation the condition whether blood-pressure measurement data that is stored in above-mentioned storage part meets setting, with qualified blood pressure data as particular data;
Described blood pressure average calculation unit calculates the mediodespidine average based on above-mentioned particular data.
2. electric sphygmomanometer as claimed in claim 1 is characterized in that,
Each condition entry unit is made up of parameter type viewing area and input area in the described set condition input block, and the parameter type viewing area is used to show parameter type to be set, and the input area is used for the scope of parameter is set.
3. electric sphygmomanometer as claimed in claim 2, it is characterized in that, described parameter comprises date, time, high pressure, low pressure, number of times, the described date is between the date field of mediodespidine average to be calculated, the described time is used to set calculates the mediodespidine average of which or which time period in the middle of one day, and the mediodespidine average that described number of times is used to set newer blood pressure data is calculated.
4. electric sphygmomanometer as claimed in claim 1 is characterized in that, described input area is for touching the input area.
5. electric sphygmomanometer as claimed in claim 3 is characterized in that, but described touch input area has an edit menu, is used for parameter values is selected input.
6. electric sphygmomanometer as claimed in claim 2 is characterized in that, has the parameter area of an acquiescence for each described parameter.
7. electric sphygmomanometer as claimed in claim 5 is characterized in that,
The default parameters scope of each parameter is in the setup parameter:
When parameter was the date, the parameter area of acquiescence was from date of manufacture~current date;
When parameter was the time, the parameter area of acquiescence was 00:00~23:59;
When parameter was high pressure, the default parameters scope was 0~299;
When parameter was low pressure, the default parameters scope was 0~299;
When parameter was the time, default parameters was the number of times of historical surveying record.
8. as any described claim in the claim 1 to 7, it is characterized in that, also comprise an external-connected port, pulse wave signal, process data and measurement result are uploaded to the outer terminal of taking by this external-connected port.
9. a data processing equipment is characterized in that, comprising:
Storage part is used to store the blood pressure determination data;
Operating portion, this operating portion comprises a set condition input block, be used to set the design conditions of mediodespidine average, each condition entry unit is made up of parameter type viewing area and input area in the described set condition input block, parameter type viewing area display parameters title, the input area is used for parameter area is set;
Judging part, the mediodespidine mean value computation condition that whether blood pressure data that is stored in above-mentioned storage part is met setting makes up judgement, with qualified blood pressure data as particular data;
Calculating part calculates the mediodespidine average based on above-mentioned particular data;
Display part, the mediodespidine average that goes out based on aforementioned calculation shows.
10. a data processing method is characterized in that, may further comprise the steps:
Storing step, with the blood pressure determination data storage in storage part;
Input step by a set condition input block that is provided with, is imported the design conditions of specified mediodespidine average;
Determining step, the mediodespidine mean value computation condition that whether blood pressure data that is stored in above-mentioned storage part is met setting makes up judgement, with qualified blood pressure data as particular data;
Calculation procedure calculates the mediodespidine average based on above-mentioned particular data;
Step display, the mediodespidine average that goes out based on aforementioned calculation shows.
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CN102715905B (en) * | 2012-02-09 | 2015-04-29 | 常州市璟恒医疗科技有限公司 | Hand and wrist rehabilitation evaluating and monitoring device |
CN104027101A (en) * | 2014-07-01 | 2014-09-10 | 尚奇浩康(北京)科技有限公司 | Electronic sphygmomanometer implementation method, electronic sphygmomanometer and blood pressure management system |
CN105615858A (en) * | 2014-10-31 | 2016-06-01 | 西安深迈瑞医疗电子研究院有限公司 | Blood pressure/ pulse rate average value acquisition method and electronic sphygmomanometer |
CN105852836A (en) * | 2016-05-24 | 2016-08-17 | 广东乐心医疗电子股份有限公司 | Blood pressure measuring method and intelligent sphygmomanometer |
CN108652598A (en) * | 2018-03-06 | 2018-10-16 | 江苏康尚生物医疗科技有限公司 | Improve method, equipment and the storage medium of non-invasive blood pressure accuracy of measurement |
CN114061089A (en) * | 2021-11-03 | 2022-02-18 | 青岛海尔空调器有限总公司 | Air conditioner control method, air conditioner, electronic device and storage medium |
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