CN212140442U

CN212140442U - Noninvasive bioelectrical impedance blood oxygen-adding collection sub-health screening risk assessment instrument

Info

Publication number: CN212140442U
Application number: CN201920013616.0U
Authority: CN
Inventors: 池淑萍
Original assignee: Shenyang Kangyulai Technology Co ltd
Current assignee: Shenyang Kangyulai Technology Co ltd
Priority date: 2019-01-04
Filing date: 2019-01-04
Publication date: 2020-12-15
Anticipated expiration: 2029-01-04

Abstract

The utility model discloses a noninvasive bioelectrical impedance adds oxyhemoglobin collection sub-health examination risk assessment appearance, including the evaluator main part, evaluator main part both sides all are provided with the hand tape, inside human electrical impedance and the oxyhemoglobin saturation collection equipment of being provided with of evaluator main part, human electrical impedance and oxyhemoglobin saturation collection equipment output are connected with sub-health examination risk assessment equipment, sub-health examination risk assessment equipment output is connected with computer display terminal module, human electrical impedance and oxyhemoglobin saturation collection equipment are connected with electrode sensor, electrode sensor outside surface has the ring of wearing. The utility model discloses an electrical impedance value of tissue and organ in the human body is measured to the bioelectrical impedance technique, combines blood oxygen electrocardio collection technique, uses independent operation module and the abundant information storage database of standard database concept contrast, carries out the bioelectrical impedance who does not have the wound to the human body and adds the sub-health examination aassessment of blood oxygen collection.

Description

Noninvasive bioelectrical impedance blood oxygen-adding collection sub-health screening risk assessment instrument

Technical Field

The utility model relates to a sub-health physical examination and health management field, in particular to noninvasive bioelectrical impedance adds blood oxygen and gathers sub-health examination risk assessment appearance.

Background

Generally, people can do whole body physical examination for half a year or one year, but some people are afraid of trouble and avoid physical examination, so that hidden danger of diseases can be brought, some diseases cannot be discovered and treated early, some people often overtime and carry out punctuation because of work, forget to pay attention to the body, some people even can cause serious consequences, and the oxygen saturation of blood refers to the volume ratio of oxyhemoglobin to effective hemoglobin. The oxygen saturation in the broad sense often refers to the percentage of the oxygen content in the blood sample to the maximum oxygen content in the blood of the sample, but the traditional physical examination instrument needs the human body to collect different samples for test detection, more or less wounds can be caused, the detection process is complex, and the detection efficiency is influenced.

Therefore, it is necessary to invent a non-invasive bioelectrical impedance and blood oxygen sampling sub-health screening risk assessment instrument to solve the above problems.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a noninvasive bioelectrical impedance adds blood oxygen and gathers sub-health examination risk assessment appearance, through the electrical impedance value of the internal tissue of bioelectrical impedance technical measurement human body and organ, combine blood oxygen electrocardio collection technique, use independent operation module and the abundant information storage database of standard database concept contrast, carry out noninvasive bioelectrical impedance and add blood oxygen and gather sub-health examination and assess to solve the problem that proposes in the above-mentioned background art to the human body.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a noninvasive bioelectrical impedance adds oxyhemoglobin and gathers sub-health screening risk assessment appearance, includes the evaluator main part, evaluator main part both sides all are provided with the hand strap, inside human electrical impedance and the oxyhemoglobin saturation collection equipment of being provided with of evaluator main part, human electrical impedance and oxyhemoglobin saturation collection equipment output are connected with sub-health screening risk assessment equipment, sub-health screening risk assessment equipment output is connected with computer display terminal module, human electrical impedance and oxyhemoglobin saturation collection equipment are connected with electrode sensor, electrode sensor outside surface has the ring of wearing.

Preferably, the human electrical impedance and oxyhemoglobin saturation acquisition equipment comprises an oxyhemoglobin saturation acquisition module, a detection electrode channel communication module, a weak current generation module and a voltage control module, wherein the oxyhemoglobin saturation acquisition module is used for detecting the oxyhemoglobin saturation of the human body, the input end of the weak current generation module is connected with the output end of the voltage control module, and the input end of the detection electrode channel communication module is connected with the output end of the weak current generation module.

Preferably, the electrode sensors comprise a head left side electrode sensor, a head right side electrode sensor, a left hand electrode sensor, a right hand electrode sensor, a left foot electrode sensor and a right foot electrode sensor, and output ends of the head left side electrode sensor, the head right side electrode sensor, the left hand electrode sensor, the right hand electrode sensor, the left foot electrode sensor and the right foot electrode sensor are all connected with an input end of the detection electrode channel communication module.

Preferably, the sub-health screening risk assessment equipment comprises an operation module, a statistical analysis module, an information storage data module and a data simulation and 3D modeling module, wherein the data simulation and 3D modeling module is used for carrying out digital simulation and 3D modeling on data by combining with visual computer display terminal equipment with comprehensive functions, the input end of the operation module is connected with the output end of the statistical analysis module, the input end of the information storage data module is connected with the input end of the operation module, and the input end of the data simulation and 3D modeling module is connected with the output end of the information storage data module.

Preferably, the input end of the statistical analysis module is connected with the output end of the blood oxygen saturation acquisition module and the output end of the detection electrode channel communication module, and the statistical analysis module is used for statistically analyzing information acquired by the head left side electrode sensor, the head right side electrode sensor, the left hand electrode sensor, the right hand electrode sensor, the left foot electrode sensor, the right foot electrode sensor and the blood oxygen protection degree acquisition module.

Preferably, the computer display terminal module comprises an input/output module, a user permission module, a function setting module and a display screen, wherein the output end of the user permission module and the output end of the function setting module are both connected with the input end of the operation module, the input end of the display screen is connected with the output end of the data simulation and 3D modeling module, the input/output module is used for inputting user information and outputting physical examination information of a user, the user permission module is used for dividing user operation and doctor operation, the function setting module is used for adjusting the detection function of the assessment instrument, the display screen is used for displaying body health detection information, and the display screen is arranged on the surface of the main body of the assessment instrument.

Preferably, the surface of the hand strap is provided with a magic tape, the two magic tapes are matched, and the hand strap and the wearing ring are both made of elastic bands.

The utility model discloses a technological effect and advantage:

1. the utility model discloses a set up human electrical impedance and oxyhemoglobin saturation collection equipment and sub-health examination risk assessment equipment, utilize head left side electrode sensor, head right side electrode sensor, left hand electrode sensor, right hand electrode sensor, left foot electrode sensor and right foot electrode sensor, adopt the electrical impedance value of the internal tissue of bioelectrical impedance technology measurement human body and organ, combine blood oxygen electrocardio collection technology, use independent operation module and the abundant information storage database of standard database concept contrast, collect standard data, the analysis, examination evaluation data, combine the comprehensive visual computer display terminal equipment of function to carry out digital simulation and 3D modeling to data, data are accurate reliable, easy operation is swift, and show human sub-health condition examination result more vividly;

2. the utility model discloses a hand area and ring of wearing, with the magic subsides mutual laminating on the hand area, realize fixing the evaluator main part on the wrist, the ring of wearing that utilizes elastic cord to make is taken on wrist, ankle and head respectively with head left side electrode sensor, head right side electrode sensor, left hand electrode sensor, right hand electrode sensor, left foot electrode sensor and right foot electrode sensor, convenient detection operation, cooperation display screen, convenient real-time understanding testing result.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the whole structure of the wearing ring of the present invention;

FIG. 3 is a system diagram of the present invention;

in the figure: the system comprises an evaluator main body 1, a hand strap 2, an electrode sensor 3, a wearing ring 4, a blood oxygen saturation acquisition module 5, a detection electrode channel communication module 6, a weak current generation module 7, a voltage control module 8, an operation module 9, a statistical analysis module 10, an information storage database 11, a data simulation and 3D modeling module 12, an input and output module 13, a user permission module 14, a function setting module 15 and a display screen 16.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

The utility model provides a as shown in fig. 1-2 a noninvasive bioelectrical impedance adds oxyhemoglobin collection sub-health examination risk assessment appearance, including evaluator main part 1, evaluator main part 1 both sides all are provided with

hand tape

2, 1 inside human electrical impedance and oxyhemoglobin saturation collection equipment that are provided with of evaluator main part, human electrical impedance and oxyhemoglobin saturation collection equipment output are connected with sub-health examination risk assessment equipment, sub-health examination risk assessment equipment output is connected with computer display terminal module, human electrical impedance and oxyhemoglobin saturation collection equipment are connected with electrode sensor 3, electrode sensor 3 outside surface has wearing ring 4.

Further, in the above technical solution, the device for collecting electrical impedance of a human body and oxygen saturation of blood comprises an oxygen saturation of blood collecting module 5, a detecting electrode channel communicating module 6, a weak current generating module 7 and a voltage control module 8, wherein the oxygen saturation of blood collecting module 5 is used for detecting the oxygen saturation of blood of the human body, an input end of the weak current generating module 7 is connected with an output end of the voltage control module 8, and an input end of the detecting electrode channel communicating module 6 is connected with an output end of the weak current generating module 7;

further, in the above technical solution, the electrode sensor 3 includes a left head electrode sensor, a right head electrode sensor, a left hand electrode sensor, a right hand electrode sensor, a left foot electrode sensor and a right foot electrode sensor, the output ends of the left head electrode sensor, the right head electrode sensor, the left hand electrode sensor, the right hand electrode sensor, the left foot electrode sensor and the right foot electrode sensor are all connected with the input end of the detection electrode channel communication module 6, the electrical impedance values of tissues and organs in the human body are measured by a bioelectrical impedance technology, and the blood oxygen and electrocardio detection is performed on the human body by combining with a blood oxygen and electrocardio acquisition technology;

further, in the above technical solution, the sub-health screening risk assessment apparatus includes an operation module 9, a statistical analysis module 10, an information storage data module 11 and a data simulation and 3D modeling module 12, the data simulation and 3D modeling module 12 is used for performing digital simulation and 3D modeling on data in combination with a fully functional visual computer display terminal apparatus, an input end of the operation module 9 is connected with an output end of the statistical analysis module 10, an input end of the information storage data module 11 is connected with an input end of the operation module 9, an input end of the data simulation and 3D modeling module 12 is connected with an output end of the information storage data module 11, an independent operation module 9 and a standard database concept are used to compare with a rich information storage database 11, standard data is collected, analyzed and screened and assessed, digital simulation and 3D modeling are performed on data in combination with the fully functional visual computer display terminal apparatus 3, the data is accurate and reliable, and the operation is simple and quick;

further, in the above technical solution, the input end of the statistical analysis module 10 is connected to the output end of the blood oxygen saturation acquisition module 5 and the output end of the detection electrode channel communication module 6, and the statistical analysis module 10 is used for statistically analyzing the information acquired by the head left side electrode sensor, the head right side electrode sensor, the left hand electrode sensor, the right hand electrode sensor, the left foot electrode sensor, the right foot electrode sensor and the blood oxygen protection degree acquisition module 5, and conveniently receiving the information acquired by the head left side electrode sensor, the head right side electrode sensor, the left hand electrode sensor, the right hand electrode sensor, the left foot electrode sensor and the right foot electrode sensor;

further, in the above technical solution, the computer display terminal module includes an input/output module 13, a user authority module 14, a function setting module 15 and a display screen 16, the output end of the user authority module 14 and the output end of the function setting module 15 are both connected with the input end of the operation module 9, the input end of the display screen 16 is connected with the output end of the data simulation and 3D modeling module 12, the input and output module 3 is used for inputting user information and outputting physical examination information of a user, the user authority module 14 is used for dividing user operation and doctor operation, the function setting module 15 is used for adjusting the detection function of the evaluator, the display screen 16 is used for displaying the body health detection information, the display screen 16 is arranged on the surface of the evaluator main body 1, the detection condition can be conveniently checked, the screening result of the sub-health condition of the human body is more vividly displayed by matching with a digital 3D model built by using data;

further, in the above technical solution, two magic tapes are arranged on the surfaces of the two hand straps 2, the two magic tapes are matched, and the hand straps 2 and the wearing ring 4 are both made of elastic bands;

further, in the above technical solution, the models of the left head electrode sensor, the right head electrode sensor, the left hand electrode sensor, the right hand electrode sensor, the left foot electrode sensor and the right foot electrode sensor are all set to AT 36-8-U7.

This practical theory of operation:

referring to the attached figure 2 of the specification, when human health detection is carried out, a head left side electrode sensor, a head right side electrode sensor, a left hand electrode sensor, a right hand electrode sensor, a left foot electrode sensor and a right foot electrode sensor are placed at specific positions of a human body, the electrical impedance values of tissues and organs in the human body are measured by adopting a bioelectrical impedance technology, an independent operation module 9 and a standard database concept are used for contrasting an abundant information storage database 11 by combining a blood oxygen and electrocardio acquisition technology, standard data are collected, analyzed and screened and evaluated, digital simulation and 3D modeling are carried out on the data by combining a visual computer display terminal device 3 with comprehensive functions, the data are accurate and reliable, the operation is simple and fast, and the screening result of the sub-health condition of the human body is displayed more vividly;

referring to the attached drawing 1 of the specification, when using this evaluator, utilize the magic subsides on the hand area 2 to laminate each other, fix evaluator main part 1 on the wrist, the wearing ring 4 that utilizes elastic cord to make is taken head left side electrode sensor, head right side electrode sensor, left hand electrode sensor, right hand electrode sensor, left foot electrode sensor and right foot electrode sensor on wrist, ankle and head respectively, makes things convenient for detection operation, cooperation display screen 16, the convenient real-time understanding testing result.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications and variations can be made in the embodiments or in part of the technical features of the embodiments without departing from the spirit and the scope of the invention.

Claims

1. A noninvasive bioelectrical impedance adds blood oxygen and gathers sub-health screening risk assessment appearance, includes evaluator main part (1), its characterized in that: evaluator main part (1) both sides all are provided with hand strap (2), evaluator main part (1) inside is provided with human electrical impedance and oxyhemoglobin saturation collection equipment, human electrical impedance and oxyhemoglobin saturation collection equipment output are connected with sub-health screening risk evaluation equipment, sub-health screening risk evaluation equipment output is connected with computer display terminal module, human electrical impedance and oxyhemoglobin saturation collection equipment are connected with electrode sensor (3), electrode sensor (3) outside surface is provided with wears ring (4).

2. The non-invasive bioelectrical impedance and blood oxygen collection sub-health screening risk assessment instrument according to claim 1, wherein: human electrical impedance and oxyhemoglobin saturation collection equipment includes oxyhemoglobin saturation collection module (5), detection electrode passageway intercommunication module (6), weak current produces module (7) and voltage control module (8), oxyhemoglobin saturation collection module (5) are used for detecting human oxyhemoglobin saturation, weak current produces module (7) input and is connected with voltage control module (8) output, detection electrode passageway intercommunication module (6) input and weak current produce module (7) output and be connected.

3. The non-invasive bioelectrical impedance and blood oxygen collection sub-health screening risk assessment instrument according to claim 2, wherein: the electrode sensor (3) comprises a head left side electrode sensor, a head right side electrode sensor, a left hand electrode sensor, a right hand electrode sensor, a left foot electrode sensor and a right foot electrode sensor, and the output ends of the head left side electrode sensor, the head right side electrode sensor, the left hand electrode sensor, the right hand electrode sensor, the left foot electrode sensor and the right foot electrode sensor are all connected with the input end of the detection electrode channel communication module (6).

4. The non-invasive bioelectrical impedance and blood oxygen collection sub-health screening risk assessment instrument according to claim 1, wherein: two the surface of hand area (2) is provided with the magic subsides, two the magic is pasted the phase-match, hand area (2) and ring of wearing (4) are made by elastic cord.