CN103654752A - Sphygmomanometer and method for automatically starting repeated blood pressure measurement - Google Patents

Abstract

The invention provides a sphygmomanometer used for automatically measuring the blood pressure of the human body repeatedly and calculating an optimal estimated value of the blood pressure of the human body according to values obtained through repeated measurement. The sphygmomanometer comprises a key (1) and a microprocessor (2), wherein a user sets a target number of times of measurement of the blood pressure and starts a blood pressure repeated-measurement process through the key and the microprocessor is used for setting the target number of times of measurement according to input information of the key and starting the blood pressure repeated-measurement process according to the input information of the key. The invention further provides a method for starting repeated blood pressure measurement through the sphygmomanometer. The method comprises the following steps that the target number of times of measurement of the blood pressure is set by the user through the key and the blood pressure repeated-measurement process is started by the user through the key; the target number of times of measurement is set through the microprocessor according to the input information of the key and the blood pressure repeated-measurement process is started according to the input information of the key. According to the sphygmomanometer and the method for starting repeated blood pressure measurement, the blood pressure can be measured repeatedly and conveniently, the optimal estimated value of the blood pressure can be obtained, and operation is convenient.

Description

Sphygomanometer and the method that starts repeatedly blood pressure measurement

Technical field

The invention provides a kind of sphygomanometer and the method that starts repeatedly blood pressure measurement.Specifically, the invention provides a kind of for automatically repeatedly measuring human blood-pressure and calculating sphygomanometer and the method for the optimum evaluation of described human blood-pressure according to measured value repeatedly.

Background technology

In medical practice, the measurement of blood pressure is easily subject to the impact of the factors such as environment, emotion and instrument, so the value obtaining during single measurement blood pressure often fluctuates larger.To the solution of this problem, be generally to adopt the method that repeatedly measurement is averaged.But utilize on the market being seen general sphygomanometer to take multiple measurements, need multi-pass operation, process is loaded down with trivial details, therefore need to develop a kind of can be automatically the sphygomanometer of Measure blood pressure calculating mean value repeatedly.

Summary of the invention

The present invention is by providing a kind of sphygomanometer automatically repeatedly with Measure blood pressure calculating blood pressure optimum evaluation to solve the problems referred to above.The technical solution used in the present invention is as follows:

A kind of for automatically repeatedly measuring human blood-pressure and comprising according to the sphygomanometer that measured value repeatedly calculates the optimum evaluation of human blood-pressure

1) button, the target measurement number of times of repeatedly measuring for user setting blood pressure and startup blood pressure be measuring process repeatedly;

2) microprocessor, for measuring number of times and start the process that blood pressure is repeatedly measured according to the input message target setting of described button, described microprocessor is carried out the blood pressure measurement process comprising the following steps:

A) according to the input of described button, set described target measurement number of times;

B) when described target measurement number of times is set end, automatically start repeatedly measuring process of blood pressure;

C) when described repeatedly blood pressure measurement process finishes, the optimum evaluation of calculating blood pressure.

Preferably, described sphygomanometer also comprises a display, on described display, can measure number of times by display-object, when described user operates described button, under described microprocessor is controlled, described display is display measurement number of times radix value first, then according to described keying input information, progressively increase measurement number of times, until shown target measurement number of times is the target measurement number of times that needs of described user and while making described user finish the operation to described button, described microprocessor starts repeatedly measuring process of described blood pressure automatically on described display.

Preferably, described sphygomanometer is within a given input time, when described user is often pressed and unclamps in time described button once, described target measurement number of times increases an increment size, described increment size is a definite value in 1,2,3,4,5, be to be less than a definite value of 5 seconds described given input time, and when described user does not have described button operation within described given input time, described microprocessor starts repeatedly measuring process of described blood pressure automatically.

Described sphygomanometer can also be used the method for another kind of input target measurement number of times, in this method, within a given input time, when described user is often pressed and is kept not unclamping described button, each augmental interval time of described target measurement number of times increases an increment size, the described augmental interval time is to be less than a definite value of 3 seconds, and described increment size is a definite value in 1,2,3,4,5.

Preferably, the optimum evaluation method of described calculating blood pressure is to calculate repeatedly the meansigma methods of blood pressure measurement.

Described sphygomanometer can also be used the optimum evaluation method of another kind of calculating blood pressure to be, judge whether target measurement number of times is less than 3 times, if target measurement number of times is not less than 3 times, remove the greatest measurement of the blood pressure of all measurement number of times, get respectively again the meansigma methods of the blood pressure of remaining measurement number of times, as the optimum evaluation of blood pressure.

The present invention also provides a kind of repeatedly method of blood pressure measurement of startup, by adopting above-mentioned the completing of optimum evaluation for automatically repeatedly measuring human blood-pressure and calculating human blood-pressure according to measured value repeatedly, it is characterized in that, the described startup repeatedly method of blood pressure measurement comprises the following steps:

1) use a target measurement number of times of repeatedly measuring by key assignments blood pressure;

2) use a microprocessor to measure number of times according to the input message target setting of described button, then start the process that blood pressure is repeatedly measured, and when described repeatedly blood pressure measurement process finishes, the optimum evaluation of calculating blood pressure.

Preferably, the described startup repeatedly method of blood pressure measurement also comprises a display of use, on described display, display-object is measured number of times, when described user operates described button, under described microprocessor is controlled, described display is display measurement number of times radix value first, then according to described keying input information, progressively increase measurement number of times, until shown target measurement number of times is the target measurement number of times that needs of described user and while making described user finish the operation to described button on described display, described microprocessor starts repeatedly measuring process of described blood pressure automatically.

Preferably, the described startup repeatedly method of blood pressure measurement was included in the given input time, when described user is often pressed and unclamps in time described button once, described target measurement number of times increases an increment size, described increment size is a definite value in 1,2,3,4,5, be to be less than a definite value of 5 seconds described given input time, and when described user does not have described button operation within described given input time, described microprocessor starts repeatedly measuring process of described blood pressure automatically;

The described startup repeatedly method of blood pressure measurement can also be used the another kind of method of inputting target measurement number of times, when described user is often pressed and is kept not unclamping described button, each augmental interval time of described target measurement number of times increases an increment size, the described augmental interval time is to be less than a definite value of 3 seconds, and described increment size is a definite value in 1,2,3,4,5.

Beneficial effect: adopt sphygomanometer of the present invention and method, the automatic optimum evaluation that repeatedly measure human blood-pressure and calculate described human blood-pressure, more convenient to operate easy expediently.

Accompanying drawing explanation

Fig. 1 is that sphygomanometer of the present invention starts repeatedly the schematic diagram of blood pressure measurement for human body;

Fig. 2 is the structural representation of sphygomanometer of the present invention;

Fig. 3 is the flow chart of an embodiment that starts repeatedly the method for blood pressure measurement;

Fig. 4 is the flow chart of another embodiment that starts repeatedly the method for blood pressure measurement.

In the drawings: 1-oversleeve; 4-main frame; 5-trachea; 11-host switch; 12-sets button.

The specific embodiment

The present invention will be described below with reference to accompanying drawings and in conjunction with the specific embodiment.

Fig. 1 shows and sphygomanometer of the present invention is started repeatedly to the schematic diagram of blood pressure measurement for human body, wherein, as common finding, the oversleeve of sphygomanometer 1 is tied up on arm, and oversleeve 1 is connected by trachea with main frame 4.Push button 12, start sphygomanometer, and then measure number of times and start repeatedly blood pressure measurement by button 12 target settings.

Again referring to Fig. 2, user is set target measurement number of times by comprising the human-computer interaction interface of keyboard, display, be that user is measured number of times and is presented on display by button target setting, microprocessor receives the signal of button, and identification target measurement number of times also judges whether to reach the requirement of user.When judgement set point number is while reaching target measurement number of times, by air pump, pressure transducer and gas bleeder valve, realize measuring process, and when having completed target measurement number of times calculating blood pressure optimum evaluation.

When using sphygomanometer execution of the present invention to start repeatedly the process of blood pressure measurement, comprise the following steps successively:

1) cuff 1 is bundled on tested tremulous pulse, and is connected with the cuff interface on main frame 4 by trachea 5;

2) after start, use the startup button of main frame 4 keyboards, set the target measurement number of times that blood pressure is repeatedly measured, the method that described target setting is measured number of times has following 2-1) and 2 kinds of methods such as 2-2), as Fig. 3 and Fig. 4 finding:

2-1) method of this target setting measurement number of times has following several step:

The start key of 2-1-1) pressing main frame 4 keyboards once, and unclamps button;

2-1-2) target measurement number of times is got back to a radix value, and described measurement radix value may be the numerals such as 1,2,3,4,5, and for example 1;

2-1-3) button timer initiation, and start timing;

2-1-4) display display-object is measured number of times;

2-1-5) value at button timer is less than in the process of a given input time, the target measurement number of times whether number of times arrives repeatedly Measure blood pressure is measured in user judgement, if not, user again operation push-button to increasing a predetermined increment size, thereby main frame 4 carries out step 2-1-6), if, when the value of button timer count down to this given input time, main frame 4 carry out step 3), can be set-point, for example a 1s who is less than 5s wherein said given input time;

2-1-6) button timer back to zero;

2-1-7) numerical value of target measurement number of times increases an increment size, and described increment size can be the numerals such as 1,2,3,4,5, and for example 1, then main frame 4 carries out step 2-1-3 again);

2-2) method of this target setting measurement number of times has following several step:

2-2-1) press the start key of main frame 4 keyboards, and do not unclamp button;

2-2-2) target measurement number of times is got back to a radix value, and described measurement radix value may be the numerals such as 1,2,3,4,5, and for example 1;

2-2-3) button timer initiation, and start timing;

2-2-4) display display-object is measured number of times;

2-2-5) value at button timer is less than in the process of an augmental interval time, the target measurement number of times whether number of times reaches repeatedly Measure blood pressure is measured in user judgement, if not, user does not unclamp button to increasing a predetermined increment size, thereby main frame 4 carries out step 2-2-6), if, user unclamps button, main frame 4 carry out step 3), the wherein said augmental interval time can be set-point, for example a 1s who is less than 3s;

2-2-6) button timer back to zero;

2-2-7) numerical value of target measurement number of times increases an increment size, and described increment size can be the numerals such as 1,2,3,4,5, and for example 1, then main frame 4 carries out step 2-2-3 again);

3) main frame 4 starts Measure blood pressure;

4), after completing one-shot measurement, main frame 4 is measured the blood pressure of tested tremulous pulse;

5) main frame 4 has judged whether target measurement number of times, if not, carry out step 6), if so, carry out step 7);

6) wait for blood pressure measurement interval time, described blood pressure measurement interval time is the set-point between 0.5-30min, and 1.5min is for example waiting for that while finishing, main frame 4 carry out step 3 again);

7) main frame 4 calculates and shows the mean blood pressure of tested tremulous pulse, the method for the described calculating mean blood pressure 7-1 that has the following steps), 7-2) and 3 kinds of methods such as 7-3):

7-1) get respectively the meansigma methods of the blood pressure of all measurement number of times, as mean blood pressure;

7-2) this method has following 7-2-1) and 7-2-2) two kinds of situations:

If 7-2-1) target measurement number of times is less than 3 times, the meansigma methods of getting respectively the blood pressure of all measurement number of times, as mean blood pressure;

If 7-2-2) target measurement number of times is not less than 3 times, removes respectively the greatest measurement of the blood pressure of all measurement number of times, then get respectively the meansigma methods of the blood pressure of remaining measurement number of times, as mean blood pressure;

7-3) this method has following 7-3-1) and 7-3-2) two kinds of situations:

If 7-3-1) target measurement number of times is less than 4 times, the meansigma methods of getting respectively the blood pressure of all measurement number of times, as mean blood pressure;

If 7-3-2) target measurement number of times is not less than 4 times, remove respectively greatest measurement and the minimum measured value of the blood pressure of all measurement number of times, then the meansigma methods of getting respectively the blood pressure of remaining measurement number of times, as mean blood pressure.

Above content is further to convert in detail brightly in conjunction with concrete preferred implementation is made for the present invention, can not assert that specific embodiment of the invention is confined to these explanations.In startup mentioned above repeatedly in the method for blood pressure measurement, described blood pressure can refer to systolic pressure, diastolic pressure or systolic pressure and diastolic pressure, the process that starts repeatedly blood pressure measurement can be independent measurement systolic pressure and obtain the meansigma methods that systolic pressure is repeatedly measured, independent measurement diastolic pressure also obtains the meansigma methods that diastolic pressure is repeatedly measured, or measures systolic pressure and diastolic pressure simultaneously and obtain systolic pressure and the meansigma methods of diastolic pressure.

For general technical staff of the technical field of the invention; make without departing from the inventive concept of the premise some alternative or obvious modification that are equal to; and performance or purposes identical, all should be considered as belonging to the present invention by the definite patent protection model of submitted to claims with.

By reference to the accompanying drawings embodiments of the present invention are described in detail above, but the invention is not restricted to above-mentioned embodiment, in the ken possessing at affiliated technical field those of ordinary skill, can also under the prerequisite that does not depart from aim of the present invention, make a variety of changes.

Claims (10)

1. a sphygomanometer, for automatically repeatedly measuring human blood-pressure, and calculates the optimum evaluation of human blood-pressure according to measured value repeatedly, it is characterized in that, described sphygomanometer comprises

1) button, the target measurement number of times of repeatedly measuring for user setting blood pressure and startup blood pressure be measuring process repeatedly;

2) microprocessor, for measuring number of times and start the process that blood pressure is repeatedly measured according to the input message target setting of described button, described microprocessor is carried out the blood pressure measurement process comprising the following steps:

A) according to the input of described button, set described target measurement number of times;

B) when described target measurement number of times is set end, automatically start repeatedly measuring process of blood pressure;

C) when described repeatedly blood pressure measurement process finishes, the optimum evaluation of calculating blood pressure.

2. sphygomanometer as claimed in claim 1, it is characterized in that, described sphygomanometer also comprises a display, on described display, can measure number of times by display-object, when described user operates described button, under described microprocessor is controlled, described display is display measurement number of times radix value first, then according to described keying input information, progressively increase measurement number of times, until shown target measurement number of times is the target measurement number of times that needs of described user and while making described user finish the operation to described button on described display, described microprocessor starts repeatedly measuring process of described blood pressure automatically.

3. sphygomanometer as claimed in claim 2, it is characterized in that, within a given input time, when described user is often pressed and unclamps in time described button once, described target measurement number of times increases an increment size, and described increment size is a definite value in 1,2,3,4,5, and be to be less than a definite value of 5 seconds described given input time, when described user does not have described button operation within described given input time, described microprocessor starts repeatedly measuring process of described blood pressure automatically.

4. sphygomanometer as claimed in claim 2, it is characterized in that, when described user is often pressed and is kept not unclamping described button, each augmental interval time of described target measurement number of times increases an increment size, the described augmental interval time is to be less than a definite value of 3 seconds, and described increment size is a definite value in 1,2,3,4,5.

5. sphygomanometer as claimed in claim 1, is characterized in that, the optimum evaluation method of described calculating blood pressure is to calculate repeatedly the meansigma methods of blood pressure measurement.

6. sphygomanometer as claimed in claim 1, it is characterized in that, the optimum evaluation method of described calculating blood pressure is, judge whether target measurement number of times is less than 3 times, if target measurement number of times is not less than 3 times, remove the greatest measurement of the blood pressure of all measurement number of times, then get respectively the meansigma methods of the blood pressure of remaining measurement number of times, as the optimum evaluation of blood pressure.

7. start repeatedly a method for blood pressure measurement, for user Measure blood pressure, it is characterized in that, the described startup repeatedly method of blood pressure measurement comprises

1) use a target measurement number of times of repeatedly measuring by key assignments blood pressure;

2) use a microprocessor to measure number of times according to the input message target setting of described button, then start the process that blood pressure is repeatedly measured, and when described repeatedly blood pressure measurement process finishes, the optimum evaluation of calculating blood pressure.

8. the startup as claimed in claim 7 method of blood pressure measurement repeatedly, it is characterized in that, described method also comprises uses a display, on described display, display-object is measured number of times, when described user operates described button, under described microprocessor is controlled, described display is display measurement number of times radix value first, then according to described keying input information, progressively increase measurement number of times, until shown target measurement number of times is the target measurement number of times that needs of described user and while making described user finish the operation to described button on described display, described microprocessor starts repeatedly measuring process of described blood pressure automatically.

9. the startup as claimed in claim 7 method of blood pressure measurement repeatedly, it is characterized in that, within a given input time, when described user is often pressed and unclamps in time described button once, described target measurement number of times increases an increment size, described increment size is a definite value in 1,2,3,4,5, be to be less than a definite value of 5 seconds described given input time, when described user does not have described button operation within described given input time, described microprocessor starts repeatedly measuring process of described blood pressure automatically.

10. the startup as claimed in claim 7 method of blood pressure measurement repeatedly, it is characterized in that, when described user is often pressed and is kept not unclamping described button, each augmental interval time of described target measurement number of times increases an increment size, the described augmental interval time is to be less than a definite value of 3 seconds, and described increment size is a definite value in 1,2,3,4,5.

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