CN205163059U - Sphygmomanometer - Google Patents

Abstract

The utility model provides a sphygmomanometer which characterized in that: sphygmomanometer includes processing module, measured module and energy supply module, processing module includes main microprocessor, display screen, memory cell, bluetooth unit and reset unit, display screen, memory cell, bluetooth unit and reset unit are connected with main microprocessor respectively, measured module is including vice microprocessor, sleeve area, air pump, pneumatic valve, pressure sensor, air pump, pneumatic valve, pressure sensor all set up at the sleeve in -band and are connected with vice microprocessor respectively, energy supply module includes first lithium cell and second lithium cell, its power supply is connected and is to first lithium cell with processing module, its power supply is connected and is to the second lithium cell with measured module, main microprocessor and vice microprocessor data connection, the utility model aims to provide a through lithium cell power supply, through bluetooth wireless transmission measured data, sphygmomanometer that use safety is convenient.

Description

A kind of sphygomanometer

Technical field

This utility model relates to a kind of sphygomanometer.

Background technology

Along with improving constantly and the raising of urban ageing ratio of living standard, the family oriented of medical treatment electronic equipment becomes trend gradually.Wherein domestic electronic sphygomanometer is exactly one of typical domestic medicine checkout equipment.Current sphygomanometer can be divided into two kinds: one to be mercury sphygmomanometer haply, and its advantage is numerical stability, and its shortcoming is cannot people's Self-operating, must health care professional's operation, and perusal misses by a mile, and subjectivity is strong, and volume is more portable.Two is electric sphygmomanometers, and its advantage is: use simple and easy, can people's handled by itself; Measured value is convenient to record, and volume is lightly easy to carry.

But existing electric sphygmomanometer has following shortcoming:

One, the data of electric sphygmomanometer are without data-transformation facility, therefore can not store temperature data for a long time, can not carry out with equipment such as PC, mobile phone, Internet servers being connected, uploading data, record preserve, can not the display of performance graph chart and analysis be carried out.

Its two, electric sphygmomanometer adopts cable external device to connect, and connection cable is volatile product, and connects inconvenient.

Utility model content

The purpose of this utility model is to provide a kind of by lithium battery power supply, by Bluetooth wireless transmission measurement data, and the sphygomanometer of use procedure safe and convenient.

For achieving the above object, the technical solution adopted in the utility model is:

A kind of sphygomanometer, is characterized in that: described sphygomanometer comprises processing module, measurement module and power module; Described processing module comprises master microprocessor, display screen, memory element, bluetooth unit and reset unit, and described display screen, memory element, bluetooth unit are connected with master microprocessor respectively with reset unit; Described measurement module comprises secondary microprocessor, cuff, air pump, air valve, pressure transducer, and described air pump, air valve, pressure transducer are all arranged in cuff and are also connected with secondary microprocessor respectively; Described power module comprises the first lithium battery and the second lithium battery, and described first lithium battery is connected with processing module and is that it is powered, and described second lithium battery is connected with measurement module and is that it is powered; Described master microprocessor is connected with secondary microprocessor data.

Adopt the sphygomanometer of this technical scheme, by the first lithium battery for processing module provides required electric energy, drive master microprocessor, display screen, memory element, bluetooth unit and reset unit, display screen is started via master microprocessor, memory element, bluetooth unit and reset unit, by the electric energy that the second lithium battery provides for measurement module, drive secondary microprocessor, air pump, air valve, pressure transducer carries out work, after master microprocessor sends instruction, cuff is coated on human arm, the air pump that secondary Microprocessor S3C44B0X is arranged on wherein carries out air-breathing, after being raised to certain value, stop air pump work, and open air valve and exit with 4-5mmHg speed per second, the static pressure at every turn detecting pulse wave amplitude and cuff by pressure transducer is sent into secondary microprocessor and is processed, and according to the frequency computation part heart rate of pulse, when systolic pressure being detected, after mean pressure and diastolic pressure, open air valve, cuff is all exitted, complete one-shot measurement process, and the data this process obtained send machine in one's hands by bluetooth unit, computer or server store, sphygomanometer self also stores data in memory element simultaneously, and externally shown by display screen, press reset unit after completing measurement can clear data.

The data transmission of this sphygomanometer does not need to pass through wired connection, the restriction that wireless transmission can break measuring distance is on the one hand carried out by bluetooth, can make on the other hand to measure and be divided the work to measure many people quickly to reach by two people with record, thus accelerate efficiency; Use lithium battery power supply, the durable and use of can repeatedly charging than conventional alkaline aneroid battery, can reduce use cost; The arranging of reset unit can make can reset to data quickly between each measurement to measure again.

As improvement opportunity scheme of the present utility model:

Described processing module also comprises GIS unit, and described GIS unit is connected with master microprocessor.

GIS unit is added in processing module, object is to make this sphygomanometer after production completes, sell the area toward different altitude height, the deviation data that the change of height above sea level to human blood-pressure is brought that can be pre-set by master microprocessor, then the data measured are finely tuned, make the final data measured more accurate.

As improvement opportunity scheme of the present utility model:

Described processing module also comprises voice unit, and institute's speech units is connected with master microprocessor.

Add voice unit in processing module, in measuring process, measured data can be quoted by phonetic function.

As improvement opportunity scheme of the present utility model:

Described sphygomanometer also comprises shell, and described display screen is arranged on case surface, and described master microprocessor, bluetooth unit, reset unit, measurement module, functional module are all arranged on enclosure.

Shell set by processing module can protection setting master microprocessor wherein, bluetooth unit and reset unit, measurement module, functional module, and the display screen being arranged on case surface can external video data better.

As improvement opportunity scheme of the present utility model:

Described cuff adopts nylon facing material.

Nylon facing material used is easy to cleaning and sterilization, the probability of cross infection is contributed to be down to minimum, easy sterilization, cost performance are high, sturdy and durable, comparing, other adopt the fabric of latex, polrvinyl chloride and plasticiser material, and nylon facing material can provide safer guarantee for the patient of Measure blood pressure.

After adopting said structure, this utility model beneficial effect is:

The data transmission of this sphygomanometer does not need to pass through wired connection, the restriction that wireless transmission can break measuring distance is on the one hand carried out by bluetooth, can make on the other hand to measure and be divided the work to measure many people quickly to reach by two people with record, thus accelerate efficiency; Use lithium battery power supply, the durable and use of can repeatedly charging than conventional alkaline aneroid battery, can reduce use cost; The arranging of reset unit can make can reset to data quickly between each measurement to measure again; Processing module adds GIS unit, object is to make this sphygomanometer after production completes, sell the area toward different altitude height, the deviation data that the change of height above sea level to human blood-pressure is brought that can be pre-set by master microprocessor, then the data measured are finely tuned, make the final data measured more accurate.

Accompanying drawing explanation

Fig. 1 is the structural representation of this utility model sphygomanometer.

Detailed description of the invention

Below in conjunction with accompanying drawing, this utility model is further described.

A kind of sphygomanometer, is characterized in that: described sphygomanometer comprises processing module 1, measurement module 2 and power module 3; Described processing module 1 comprises master microprocessor 11, display screen 12, memory element 13, bluetooth unit 14 and reset unit 15, and described display screen 12, memory element 13, bluetooth unit 14 are connected with master microprocessor 11 respectively with reset unit 15; Described measurement module 2 comprises secondary microprocessor 21, cuff 22, air pump 23, air valve 24, pressure transducer 25, and described air pump 23, air valve 24, pressure transducer 25 are all arranged in cuff 22 and are also connected with secondary microprocessor 21 respectively; Described power module 3 comprises the first lithium battery 31 and the second lithium battery 32, and described first lithium battery 31 is connected with processing module 1 and is that it is powered, and described second lithium battery 32 is connected with measurement module 2 and is that it is powered; Described master microprocessor 11 and secondary microprocessor 21 data cube computation.

Above-mentioned processing module 1 also comprises GIS unit 16, and described GIS unit 16 is connected with master microprocessor 11.

Above-mentioned processing module 1 also comprises voice unit 17, and institute's speech units 17 is connected with master microprocessor 11.

Above-mentioned processing module 1 also comprises shell 18, and described display screen 12 is arranged on shell 18 surface, and it is inner that described master microprocessor 11, bluetooth unit 14 and reset unit 15 are all arranged on shell 18.

Above-mentioned cuff 22 adopts nylon facing material.

Adopt the sphygomanometer of this technical scheme, by the first lithium battery 31 for processing module 1 provides required electric energy, drive master microprocessor 11, display screen 12, memory element 13, bluetooth unit 14 and reset unit 15, display screen 12 is started via master microprocessor 11, memory element 13, bluetooth unit 14 and reset unit 15, after measurement instruction transmission will be started, by the electric energy that the second lithium battery 32 provides for measurement module 2, drive secondary microprocessor 21, air pump 23, air valve 24, pressure transducer 25, after receiving instruction, be coated on the cuff 22 on human arm, secondary microprocessor 21 controls the air pump 23 be arranged on wherein and carries out air-breathing, after being raised to certain value, air pump 23 is stopped to work, and open air valve 24 and exit with 4-5mmHg speed per second, send into secondary microprocessor 21 by each static pressure detecting pulse wave amplitude and cuff 22 of pressure transducer 25 to process, and according to the frequency computation part heart rate of pulse, when systolic pressure being detected, after mean pressure and diastolic pressure, open air valve 24, cuff 22 is all exitted, complete one-shot measurement process, and the data this process obtained are sent to the hands machine of connection by bluetooth unit 14, on computer or server, sphygomanometer self also stores data in memory element 13, and externally shown by display screen 12, press reset unit 15 after completing measurement can clear data.

The data transmission of this sphygomanometer does not need to pass through wired connection, the restriction that wireless transmission can break measuring distance is on the one hand carried out by bluetooth, can make on the other hand to measure and be divided the work to measure many people quickly to reach by two people with record, thus accelerate efficiency; Use lithium battery power supply, the durable and use of can repeatedly charging than conventional alkaline aneroid battery, can reduce use cost; The arranging of reset unit 15 can make can reset to data quickly between each measurement to measure again.

GIS unit 16 is added in processing module 1, object is to make this sphygomanometer after production completes, sell the area toward different altitude height, the deviation data that the change of height above sea level to human blood-pressure is brought that can be pre-set by master microprocessor 11, then the data measured are finely tuned, make the final data measured more accurate.

Add voice unit 17 in processing module 1, in measuring process, measured data can be quoted by phonetic function.

Shell 18 set by processing module 1 can protection setting master microprocessor 11 wherein, bluetooth unit 14, reset unit 15, measurement module 2 and functional module 3, and the display screen 12 being arranged on shell 18 surface can external video data better.

Nylon facing material used is easy to cleaning and sterilization, the probability of cross infection is contributed to be down to minimum, easy sterilization, cost performance are high, sturdy and durable, comparing, other adopt the fabric of latex, polrvinyl chloride and plasticiser material, and nylon facing material can provide safer guarantee for the patient of Measure blood pressure.

The content of above detailed description of the invention is only preferred embodiment of the present utility model, and above preferred embodiment is not used for limiting practical range of the present utility model; Every various equivalents made according to the protection domain of its claim of this utility model, all cover by the protection domain of its claim of this utility model.

Claims (5)

1. a sphygomanometer, is characterized in that: described sphygomanometer comprises processing module, measurement module and power module; Described processing module comprises master microprocessor, display screen, memory element, bluetooth unit and reset unit, and described display screen, memory element, bluetooth unit are connected with master microprocessor respectively with reset unit; Described measurement module comprises secondary microprocessor, cuff, air pump, air valve, pressure transducer, and described air pump, air valve, pressure transducer are all arranged in cuff and are also connected with secondary microprocessor respectively; Described power module comprises the first lithium battery and the second lithium battery, and described first lithium battery is connected with processing module and is that it is powered, and described second lithium battery is connected with measurement module and is that it is powered; Described master microprocessor is connected with secondary microprocessor data.

2. sphygomanometer according to claim 1, is characterized in that: described processing module also comprises GIS unit, and described GIS unit is connected with master microprocessor.

3. sphygomanometer according to claim 1, is characterized in that: described processing module also comprises voice unit, and institute's speech units is connected with master microprocessor.

4. sphygomanometer according to claim 1, is characterized in that: described sphygomanometer also comprises shell, and described display screen is arranged on case surface, and described master microprocessor, bluetooth unit, reset unit, measurement module, functional module are all arranged on enclosure.

5. sphygomanometer according to claim 1, is characterized in that: described cuff adopts nylon facing material.