CN205493805U - Body fat balance suitable for high -altitude area - Google Patents

Abstract

The utility model discloses a body fat balance suitable for high -altitude area, including drain pan, glass panels, display module, control mainboard, ballast pickup assembly and power module, glass panels installs on the drain pan and forms one and holds the chamber, and display module and the setting of control mainboard are in this holds the chamber, and ballast pickup assembly installs on the drain pan, the last detection electrode that is equipped with of glass panels, detection electrode, display module, ballast pickup assembly and power module all with control pickup assembly 0, control and be provided with height above sea level pickup assembly 1 on the mainboard. But body fat balance simultaneous measurement obtains fat percentage data and elevation, compact structure, and low in production cost, convenient to use, and easy operation, but the wide application is in the electronic scale trade.

Description

It is applicable to the Human fat balance of high altitude localities

Technical field

This utility model relates to electronic scale field, particularly relates to be applicable to the Human fat balance of high altitude localities.

Background technology

Human fat balance be a kind of can be with the electronic scale of test person body fat rate, its principle is, human body can simply be divided into the body fluid of good conductivity, muscle etc., and the fatty tissue of poorly conductive, atomic little electric current is sent through health by electrode during measurement, if fat percentage is high, then measured biologic resistance is relatively big, otherwise the least.Current Human fat balance is generally used for measuring body weight and the fat percentage of user, provides the user health detection data, in order to user understands oneself state.Owing to the height above sea level on China territory is widely different, the area that height above sea level is less than 1800 meters about 6,300,000 sq-km, account for the 66% of the gross area, the area that height above sea level is more than 1800 meters about 3,300,000 sq-km, account for the 34% of the gross area.And the distributional difference of population is bigger, with height above sea level 1800 meters as separation, the people of 94.5% lives in low altitude area, and the people of 5.5% lives in high altitude localities.The hypobaric hypoxia environment of highlands can upset human body metabolic balance, makes body ingredient breakdown metabolism strengthen, and negative balance occurs in human energy metabolism, has a great impact human body component ratio.Studying discovery, after entering altitude environment or hypobaric hypoxia environment, some index of human body component changes, and such as fat, protein, lean body mass etc. there will be decline, and there is some difference between different crowd for this effect in the past.Further, live in after the people of low altitude area arrives at highlands at the initial stage for a long time, it may appear that plateau acute reaction symptom, if after symptom occurs, it is possible to have a rest in time, generally exist Meeting spontaneous remission after 2 to 3 days, if but deal with improperly, it will cause health the most uncomfortable, in some instances it may even be possible to progress to acute high altitude cerebral edema and life danger occurs.But current Human fat balance is essentially all the user towards low altitude area, provide only body weight, body fat information, the user of high altitude localities cannot be met, the demand of the user particularly traveled from Plain to high altitude localities, it is impossible to provide the user altitude info ination.

It addition, user is not concerned only with body fat information in high altitude localities, it is also desirable to measure heart rate value, judge the health status of health in conjunction with height above sea level, body fat information and heart rate test situation.The means used at present are to use the extra equipment such as stethoscope to carry out heart rate test, use more inconvenience, complex operation, and since it is desired that buy two kinds of equipment, cause relatively costly.And current Human fat balance and the equipment of measurement heart rate, can not record or store measurement data, user needs the data of manually recorded each measurement, operation inconvenience.

Utility model content

In order to solve above-mentioned technical problem, the purpose of this utility model is to provide the Human fat balance being applicable to high altitude localities.

This utility model solves its technical problem and be the technical scheme is that

It is applicable to the Human fat balance of high altitude localities, including drain pan, face glass, display module, control mainboard, ballast sensor cluster and power module, described face glass is arranged on drain pan and is formed a receiving chamber, described display module and control mainboard are arranged in this receiving chamber, described ballast sensor cluster is arranged on drain pan, described face glass is provided with detecting electrode, described detecting electrode, display module, ballast sensor cluster and power module are all connected with control mainboard, and described control mainboard is provided with altitude sensor.

Further, described detecting electrode includes two conductive regions being left and right symmetrically arranged.

Further, described control mainboard being additionally provided with microprocessor and wifi communication module, described microprocessor is connected with altitude sensor, display module, detecting electrode, ballast sensor cluster, power module and wifi communication module respectively.

Further, described microprocessor is also associated with bluetooth communication.

Further, described control mainboard being additionally provided with electrocardiogram acquisition chip, described electrocardiogram acquisition chip is connected with detecting electrode and microprocessor respectively.

Further, the bottom of described drain pan is provided with battery compartment, and described control mainboard and display module are sequentially arranged on battery compartment, and described power module uses lithium battery, and described lithium battery is arranged in battery compartment, and described lithium battery is connected with controlling mainboard.

Further, described ballast sensor cluster includes four ballast sensors, and these four ballast sensors are separately mounted to the corner of drain pan, and four ballast sensors are all connected with control mainboard.

Further, the corner of described drain pan is separately provided for accommodating the mounting groove of ballast sensor.

The beneficial effects of the utility model are: the Human fat balance being applicable to high altitude localities of the present utility model, including drain pan, face glass, display module, control mainboard, ballast sensor cluster and power module, face glass is arranged on drain pan and is formed a receiving chamber, display module and control mainboard are arranged in this receiving chamber, ballast sensor cluster is arranged on drain pan, face glass is provided with detecting electrode, detecting electrode, display module, ballast sensor cluster and power module are all connected with control mainboard, control to be provided with altitude sensor on mainboard.This Human fat balance can measure acquisition fat percentage data and height above sea level, compact conformation simultaneously, and production cost is low, easy to use, and simple to operate.

And, this Human fat balance is also integrated with electrocardiogram acquisition chip, can directly measure the heart rate data obtaining user；Furthermore it is also possible to by the connection of the smart machines such as communication realization and mobile phone, thus measurement data is sent to smart machine and shows in real time or store.

Accompanying drawing explanation

The utility model is described in further detail with embodiment below in conjunction with the accompanying drawings.

Fig. 1 is the explosive decomposition figure of the Human fat balance being applicable to high altitude localities of the present utility model；

Fig. 2 is the electronic block diagrams of the Human fat balance being applicable to high altitude localities of the present utility model.

Detailed description of the invention

See figures.1.and.2, this utility model provides a kind of Human fat balance being applicable to high altitude localities, including drain pan 11, face glass 12, display module 22, control mainboard 21, ballast sensor cluster and power module, described face glass 12 is arranged on drain pan 11 and is formed a receiving chamber, described display module 22 and control mainboard 21 are arranged in this receiving chamber, described ballast sensor cluster is arranged on drain pan 11, described face glass 12 is provided with detecting electrode, described detecting electrode, display module 22, ballast sensor cluster and power module are all connected with control mainboard 21, it is provided with altitude sensor on described control mainboard 21.

Being further used as preferred embodiment, described detecting electrode includes two conductive regions being left and right symmetrically arranged.

It is further used as preferred embodiment, being additionally provided with microprocessor and wifi communication module on described control mainboard 21, described microprocessor is connected with altitude sensor, display module 22, detecting electrode, ballast sensor cluster, power module and wifi communication module respectively.

Being further used as preferred embodiment, described microprocessor is also associated with bluetooth communication.

Being further used as preferred embodiment, described control mainboard 21 is additionally provided with electrocardiogram acquisition chip, described electrocardiogram acquisition chip is connected with detecting electrode and microprocessor respectively.

It is further used as preferred embodiment, the bottom of described drain pan 11 is provided with battery compartment 14, and described control mainboard 21 and display module 22 are sequentially arranged on battery compartment 14, and described power module uses lithium battery, described lithium battery is arranged in battery compartment 14, and described lithium battery is connected with controlling mainboard 21.

Being further used as preferred embodiment, described ballast sensor cluster includes four ballast sensors 13, and these four ballast sensors 13 are separately mounted to the corner of drain pan 11, and four ballast sensors 13 are all connected with control mainboard 21.

Being further used as preferred embodiment, the corner of described drain pan 11 is separately provided for accommodating the mounting groove 15 of ballast sensor 13.

Below in conjunction with specific embodiment, this utility model is described further.

See figures.1.and.2, a kind of Human fat balance being applicable to high altitude localities, including drain pan 11, face glass 12, display module 22, control mainboard 21, ballast sensor cluster and power module, face glass 12 is arranged on drain pan 11 and is formed a receiving chamber, display module 22 and control mainboard 21 are arranged in this receiving chamber, ballast sensor cluster is arranged on drain pan 11, face glass 12 is provided with detecting electrode, detecting electrode, display module 22, ballast sensor cluster and power module are all connected with control mainboard 21, control to be provided with altitude sensor on mainboard 21.Altitude sensor uses vapour-pressure type height sensor, and sensors with auxiliary electrode judges to obtain residing height above sea level by the test information such as atmospheric pressure and temperature, and sensors with auxiliary electrode can be directly integrated on a printed circuit.After this Human fat balance is integrated with altitude sensor, can measure and show height above sea level, understanding self health status for reference while measuring body fat rate.

Ballast sensor cluster is for measuring the weight data of user, as it is shown in figure 1, ballast sensor cluster includes four ballast sensors 13, these four ballast sensors 13 are separately mounted to the corner of drain pan 11, and four ballast sensors 13 are all connected with control mainboard 21.The corner of drain pan 11 is separately provided for accommodating the mounting groove 15 of ballast sensor 13.Controlling mainboard 21 and four ballast sensors 13 are measured the meansigma methods weight data as user of acquisition, decrease measurement error, measurement result is the most accurate.

In the present embodiment, the bottom of drain pan 11 is provided with battery compartment 14, controls mainboard 21 and display module 22 is sequentially arranged on battery compartment 14, and power module uses lithium battery, and described lithium battery is arranged in battery compartment 14, and described lithium battery is connected with controlling mainboard 21.The quantity of lithium battery can be multiple, forms for the power module for controlling mainboard 21 power supply in battery compartment 14 after series connection and/or parallel connection.Display module 22 uses LCDs, for showing the test data such as height above sea level, the body weight of user, fat percentage, heart rate.

Detecting electrode is the conductive layer being arranged on face glass 12, including two conductive regions being left and right symmetrically arranged.During use, the left foot of the conductive region correspondence user in left side, the right crus of diaphragm of the conductive region correspondence user on right side, when i.e. user uses, respectively by left and right foot and two, left and right conducting region contacts, two conductive regions, as electrode contacts, carry out data acquisition and are sent to control mainboard 21, control mainboard 21 and can measure acquisition human body resistance data based on prior art, obtain the fat percentage of human body then in conjunction with computational methods of the prior art.

Preferably, in the present embodiment, controlling to be additionally provided with microprocessor, bluetooth communication and wifi communication module on mainboard 21, microprocessor is connected with altitude sensor, display module 22, detecting electrode, ballast sensor cluster, power module, bluetooth communication and wifi communication module respectively.Therefore, control mainboard 21 and can realize and the radio communication of the smart machine such as user mobile phone, the test results such as body weight, heart rate or fat percentage are sent to mobile phone and show in real time or store.

In the present embodiment, control to be additionally provided with electrocardiogram acquisition chip on mainboard 21, electrocardiogram acquisition chip is connected with detecting electrode and microprocessor respectively, and electrocardiogram acquisition chip can be according to the potential difference of the user left and right bipod of detecting electrode detection, and directly output heart rate detection result is to microprocessor.Concrete, that electrocardiogram acquisition chip can use model to be BMD101 chip.

This Human fat balance is integrated with altitude sensor at control mainboard 21, as long as user steps down on Human fat balance, can measure acquisition fat percentage data and height above sea level, it is not necessary to use extra equipment to operate simultaneously.This Human fat balance compact conformation, production cost is low, easy to use, and simple to operate.

This Human fat balance is integrated with electrocardiogram acquisition chip on control mainboard 21, it is not necessary to use extra equipment, as long as user steps down on Human fat balance, can measure acquisition fat percentage data.And, this Human fat balance is integrated with bluetooth communication and/or wifi communication module on control mainboard 21, by the connection of the smart machines such as communication realization and mobile phone, thus measurement data can be sent to smart machine and show in real time or store.

It should be noted that, annexation between each building block and all parts being improved by Human fat balance of the present utility model, the reception of any signal, data transmission or the control process mentioned in description are all based on the data process level of prior art, this utility model does not has any improvement in data processing method, this utility model pertains only to the improvement in structure, do not relate to the improvement in method, be more not related to the improvement on any software.

It is above preferable enforcement of the present utility model is illustrated, but the invention is not limited to embodiment, those of ordinary skill in the art it may also be made that all equivalent variations or replacement on the premise of this utility model spirit, and modification or the replacement of these equivalents are all contained in the application claim limited range.

Claims (8)

1. it is applicable to the Human fat balance of high altitude localities, it is characterized in that, including drain pan, face glass, display module, control mainboard, ballast sensor cluster and power module, described face glass is arranged on drain pan and is formed a receiving chamber, described display module and control mainboard are arranged in this receiving chamber, described ballast sensor cluster is arranged on drain pan, described face glass is provided with detecting electrode, described detecting electrode, display module, ballast sensor cluster and power module are all connected with control mainboard, and described control mainboard is provided with altitude sensor.

The Human fat balance being applicable to high altitude localities the most according to claim 1, it is characterised in that described detecting electrode includes two conductive regions being left and right symmetrically arranged.

The Human fat balance being applicable to high altitude localities the most according to claim 1, it is characterized in that, being additionally provided with microprocessor and wifi communication module on described control mainboard, described microprocessor is connected with altitude sensor, display module, detecting electrode, ballast sensor cluster, power module and wifi communication module respectively.

The Human fat balance being applicable to high altitude localities the most according to claim 3, it is characterised in that described microprocessor is also associated with bluetooth communication.

The Human fat balance being applicable to high altitude localities the most according to claim 3, it is characterised in that be additionally provided with electrocardiogram acquisition chip on described control mainboard, described electrocardiogram acquisition chip is connected with detecting electrode and microprocessor respectively.

The Human fat balance being applicable to high altitude localities the most according to claim 1, it is characterized in that, the bottom of described drain pan is provided with battery compartment, described control mainboard and display module are sequentially arranged on battery compartment, described power module uses lithium battery, described lithium battery is arranged in battery compartment, and described lithium battery is connected with controlling mainboard.

The Human fat balance being applicable to high altitude localities the most according to claim 1, it is characterized in that, described ballast sensor cluster includes four ballast sensors, and these four ballast sensors are separately mounted to the corner of drain pan, and four ballast sensors are all connected with control mainboard.

The Human fat balance being applicable to high altitude localities the most according to claim 7, it is characterised in that the corner of described drain pan is separately provided for accommodating the mounting groove of ballast sensor.