CN204600445U - A kind of human body many health parameters monitor system of hand-held - Google Patents

Abstract

The utility model discloses a kind of human body many health parameters monitor system of hand-held.Using this utility model by electrocardiogram acquisition unit and blood oxygen collecting unit sensor used being embedded in the mode on hand-holdable housing, making its use crowd more extensive.Meanwhile, hand-holdable housing can be used for the public situation such as daily life, office and uses, and uses under being confined to a certain specific environment.In addition, held the Handheld Division of hand-holdable housing by both hands, not only make its test point and hand better fit, but also stability when ensure that it detects, and then more accurate physiological parameter can be obtained.

Description

A kind of human body many health parameters monitor system of hand-held

Technical field

This utility model relates to health supervision field, is specifically related to a kind of human body many health parameters monitor system of hand-held.

Background technology

Along with Chinese society rapid economic development, sanitary condition and the quality of life of people are greatly improved; But due to aging population aggravation, and the change of the factor such as society, economy, environment, the whole medical treatment health service of resident still has much room for improvement.

Measure blood pressure, blood oxygen or electrocardiogram (ECG) data during in order to realize daily life, revealed a kind of with earrings, ring or belt for carrier, by being placed on carrier by microsensor, thus obtain blood pressure, blood oxygen or EGC parameter.But in actual measurement process, following problems may be encountered:

1, the use of earrings and belt has limitation, such as: man and child can not be measured physiological parameter by earrings usually; In addition, the Ms wearing skirt also cannot adopt belt to measure physiological parameter, and this kind of metering system is not easy to public situation measures.And its physiological parameter that can obtain of earrings, ring and belt is single.

2, due to wrist-watch self-characteristic, so move wearing in process usually to have, therefore the application of wrist-watch is very inaccurate for the measurement of physiological parameter, and even some physiological parameter cannot be measured.And acquisition physiological parameter only has pulse frequency and hrv parameter mostly.

Utility model content

In view of this, this utility model provides a kind of human body many health parameters monitor system of hand-held, not only be suitable for public situation to use, and can to measuring for different crowd and the blood oxygen parameter of accurate acquisition human body, EGC parameter, pulse frequency parameter and blood pressure parameter.

Human body many health parameters monitor system of hand-held, comprising: electrocardiogram acquisition unit, blood oxygen collecting unit, physiological parameter resolution unit, display, alarm and radio-cell; Wherein, described electrocardiogram acquisition unit is made up of the first dry electrode, the second dry electrode and drive electrode RLD; Blood oxygen collecting unit is made up of the first reflective photoelectric sensor;

Described monitor system is loaded on hand-holdable housing;

Wherein, the surface of housing has the first Handheld Division, the second Handheld Division and relief area;

Be loaded on one of them Handheld Division by two dry electrodes, another dry electrode is loaded on another Handheld Division;

Drive electrode RLD for detecting electrocardiosignal and the first reflective photoelectric sensor for detecting blood oxygen are installed on the same Handheld Division in housing or are arranged on different Handheld Division respectively;

Display and alarm are installed on the relief area of hand-holdable housing;

Physiological parameter resolution unit and radio-cell are installed on the inside of hand-holdable housing;

Electrocardiogram acquisition unit, for gathering and obtaining the core signal ECG of human body, and is sent to physiological parameter resolution unit by the core signal ECG collected;

Blood oxygen collecting unit, for gathering and obtaining the photoplethysmographic trace signal PPG of human body, and is sent to physiological parameter resolution unit by the electrocardiosignal PPG collected;

Physiological parameter resolution unit is used for: by the core signal ECG of acquisition, photoplethysmographic trace signal PPG process, and then obtains hrv parameter, blood oxygen parameter, pulse frequency parameter and blood pressure parameter; The hrv parameter of acquisition, blood oxygen parameter, pulse frequency parameter and blood pressure parameter are sent to display display; The control signal being used for alarm parameters exception obtained is sent to alarm report to the police;

Radio-cell, for the hrv parameter of acquisition, blood oxygen, pulse frequency parameter and blood pressure parameter are sent to smart machine, the control signal being used for alarm parameters exception sent by smart machine sends to physiological parameter resolution unit.

Preferably, described hand-holdable housing is rectangular structure, and wherein, described rectangular structure by the first side be connected successively, the second side, the 3rd side and the 4th side, and is formed with above-mentioned four interconnective front and backs in side respectively;

Wherein, the first side, and the second side and the 4th side form the first Handheld Division jointly near the region of the first side;

3rd side, and the second side and the 4th side form the second Handheld Division jointly near the region of the first side;

Display and alarm are installed on the relief area part in the front of hand-holdable housing.

Preferably, described physiological parameter resolution unit comprises:

For being resolved by the core signal ECG of acquisition, and then obtain hrv parameter and the corresponding moment T of eigenvalue R point _relectrocardio resolver;

For being resolved by acquisition photoplethysmographic trace signal PPG, and then obtain the corresponding moment T of blood oxygen parameter, pulse frequency parameter and eigenvalue point P point _pblood oxygen resolver;

For the moment T that electrocardio resolver is produced _rwith the moment T that blood oxygen resolver produces _psubtract each other, obtain pulse wave transmission time Δ _tsubtractor; And,

For by described pulse wave transmission time Δ _tresolve, and then obtain the blood pressure parameter resolver of blood pressure parameter;

Hrv parameter, the blood oxygen parameter of blood oxygen resolver generation and the blood pressure parameter of pulse frequency parameter and the generation of blood pressure parameter resolver for being produced by electrocardio resolver export to the output interface of display.

Especially, described system comprises the integrated collecting unit be made up of the 3rd dry electrode and second reflective photoelectric sensor of compact Layout further; This integrated collecting unit is installed on one of them Handheld Division of housing, for gathering electrocardiosignal and photoplethysmographic trace signal simultaneously, and is sent to physiological parameter resolution unit.

Especially, the 3rd dry electrode centers in integrated collecting unit offers window, and the second reflective photoelectric sensor is placed in the 3rd dry electrode centers window interior.

Beneficial effect:

1, this utility model is by being embedded in the mode on hand-holdable housing by electrocardiogram acquisition unit and blood oxygen collecting unit sensor used, makes its use crowd more extensive.Meanwhile, hand-holdable housing can be used for the public situation such as daily life, office and uses, and uses under being confined to a certain specific environment.In addition, held the Handheld Division of hand-holdable housing by both hands, not only make its test point and hand better fit, but also stability when ensure that it detects, and then more accurate physiological parameter can be obtained.

2, because child and the not convenient crowd of hand activities are difficult to the test point on all hand-holdable housings to cover when measuring, therefore system described in the utility model further comprises integrated collecting unit, this integrated collecting unit is by by the second/the three-mirror reflective photoelectric sensor and the integrated mode of the three/four dry electrode, decrease the laminating points of hand and hand-holdable housing, and then improve the convenient degree of use, add use crowd.

Accompanying drawing explanation

Fig. 1 (a) is hand-holdable body diagram described in the utility model.

Fig. 1 (b) is arranged on same Handheld Division schematic diagram for hand-holdable housing drive electrode RLD described in the utility model and the first reflective photoelectric sensor.

Fig. 1 (c) is arranged on different Handheld Divisions schematic diagram from the first reflective photoelectric sensor for hand-holdable housing drive electrode RLD described in the utility model.

Fig. 1 (d) is hand-holdable housing axonometric chart described in the utility model.

Fig. 1 (e) is hand-holdable housing gain of parameter schematic diagram described in the utility model.

Fig. 2 is this utility model embodiment one system schematic.

Fig. 3 is this utility model embodiment two system schematic diagram.

Fig. 4 is this utility model collecting device structure chart.

Fig. 5 is physiology Parameter analysis of electrochemical unit internal structure schematic diagram.

Wherein, 1-first side, 2-second side, 3-the 3rd side, 4-the 4th side, 5-front, the 6-back side.

Detailed description of the invention

To develop simultaneously embodiment below in conjunction with accompanying drawing, this utility model is described in detail.

Due in daily life, the use of hand-holdable housing is very convenient, simultaneously, the employing of hand-holdable housing also can make it have good stability by holding of both hands, for this reason, by being loaded into by sensor on hand-holdable housing, the use not being only more crowds is provided convenience, but also effectively adds its accuracy detected.

Embodiment one:

This utility model provides a kind of human body many health parameters monitor system of hand-held, be installed on a hand-held checkout equipment, this hand-holdable housing in use, only need coincide by the test point on both hands and hand-holdable housing Handheld Division and hold with a firm grip, blood oxygen parameter, EGC parameter, pulse frequency parameter and blood pressure parameter can be obtained; As shown in Figure 2, electrocardiogram acquisition unit, blood oxygen collecting unit, physiological parameter resolution unit, display, alarm and radio-cell is comprised; Wherein, described electrocardiogram acquisition unit is made up of the first dry electrode, the second dry electrode and drive electrode RLD; Blood oxygen collecting unit is made up of the first reflective photoelectric sensor;

Conveniently use, this hand-holdable housing design is rectangular structure by the present embodiment, as shown in Fig. 1 (d).Described rectangular structure by the first side be connected successively, the second side, the 3rd side and the 4th side, and is formed with above-mentioned four interconnective front and backs in side respectively;

External shell is divided into the first Handheld Division, the second Handheld Division and relief area;

Wherein, the first side, and formation first Handheld Division is linked up near the region of the first side in the second side and the 4th side; 3rd side, and formation second Handheld Division is linked up near the region of the first side in the second side and the 4th side.

Because the present embodiment adopts the I mode of leading to obtain electrocardiosignal, namely left upper extremity connects the first dry electrode, and right upper extremity connects the second dry electrode; Therefore as shown in Fig. 1 (a), in two dry electrodes being loaded on one of them Handheld Division, another dry electrode is loaded on another Handheld Division; So, both hands two Handheld Divisions that only need naturally to hold with a firm grip respectively can be measured in use, improve the convenience that it uses, and conveniently use in any place.

As shown in Fig. 1 (b) He Fig. 1 (c), the drive electrode RLD for detecting electrocardiosignal and the first reflective photoelectric sensor for detecting blood oxygen are installed on the same Handheld Division in hand-holdable housing or are arranged on different Handheld Division respectively.Because this installation arrangement mode is numerous, do not enumerate at this.

Now, by the first dry electrode, the second dry electrode and drive electrode RLD, electrocardiosignal can be measured; By the first reflective photoelectric sensor, photoplethysmographic trace signal can be measured.

As shown in Fig. 1 (a), display and alarm are installed on the relief area in the front of hand-holdable housing;

Physiological parameter resolution unit and radio-cell are installed on the inside of hand-holdable housing;

Wherein, electrocardiogram acquisition unit, for gathering and obtaining the core signal ECG of human body, and is sent to physiological parameter resolution unit by the core signal ECG collected;

Blood oxygen collecting unit, for gathering and obtaining the photoplethysmographic trace signal PPG of human body, and is sent to physiological parameter resolution unit by the electrocardiosignal PPG collected;

As shown in Fig. 1 (e), physiological parameter resolution unit is used for: by the core signal ECG of acquisition, photoplethysmographic trace signal PPG process, and then obtains hrv parameter, blood oxygen parameter, pulse frequency parameter and blood pressure parameter; The hrv parameter of acquisition, blood oxygen parameter, pulse frequency parameter and blood pressure parameter are sent to display display; The control signal of acquisition is sent to alarm report to the police;

Be specially, as shown in Figure 5, physiological parameter resolution unit comprises electrocardio resolver, blood oxygen resolver, subtractor and blood pressure parameter resolver;

Wherein, for being resolved by the core signal ECG of acquisition, and then obtain hrv parameter and the corresponding moment T of eigenvalue R point _relectrocardio resolver; Because this resolving is mature technology, be not described in detail at this.

For being resolved by acquisition photoplethysmographic trace signal PPG, and then obtain the corresponding moment T of blood oxygen parameter, pulse frequency parameter and eigenvalue point P point _pblood oxygen resolver; Because this resolving is mature technology, be not described in detail at this.

For the moment T that electrocardio resolver is produced _rwith the moment T that blood oxygen resolver produces _psubtract each other, obtain pulse wave transmission time Δ _tsubtractor; That is: formula (1) is utilized

Δ _t＝T _R-T _P(1)

Obtain pulse wave transmission time Δ _t, and send to blood pressure parameter resolver.

And, for by described pulse wave transmission time Δ _tresolve, and then obtain the blood pressure parameter resolver of blood pressure parameter; Namely according to formula (2), blood pressure parameter BP is obtained

BP＝a+b×Δ _t(2)

Wherein, wherein, a, b are default blood pressure measurement coefficient, and it is the pulse wave transmission time Δ according to obtaining _t, and according to blood pressure measurement coefficient a and b that actual blood pressure parameter calculates, and be documented to physiological parameter resolution unit.Physiological parameter resolution unit, also for receiving the control signal for alarm parameter exception sent by radio-cell, and is sent to display and alarm unit.。

Radio-cell, for the hrv parameter of acquisition, blood oxygen, pulse frequency parameter and blood pressure parameter are sent to smart machine, the control signal being used for alarm parameter exception sent by smart machine sends to physiological parameter resolution unit.

Embodiment two:

Preferably, due in use, need multiple position of hand to be contacted with the test point of hand-holdable housing simultaneously, so, for child, because its palm is too small, and cause all test points that cannot cover hand-holdable housing Handheld Division completely; For the crowd that hand activities is not convenient, will be increased it and use difficulty.For this reason, for improving its scope of application, as shown in Figure 3, the present embodiment two also increases in above-described embodiment one integrated collecting unit; The measurement device that this integrated unit adopts by reducing its measured area, and then reaches the fitting area reducing palm and test point.

As shown in Figure 3, described integrated collecting unit comprises the integrated collecting unit be made up of the 3rd dry electrode and second reflective photoelectric sensor of compact Layout, and is installed on one of them Handheld Division of hand-holdable housing; For gathering core signal ECG and photoplethysmographic trace signal PPG simultaneously, and the signal collected is sent to physiological parameter resolution unit.The measurement device that described integrated collecting unit adopts is installed on one of them Handheld Division of hand-holdable housing.So, in use, only need the measurement device joint by left hand/right hand and integrated collecting unit, dry electrode joint on the opposite side of another hands and side, measurement device place, and on hand-holdable housing Handheld Division, the palm of side, drive electrode RLD place and drive electrode RLD fit and can measure the physiological parameter of human body.Wherein, the first side and the 3rd side opposite side each other; Second side and the 4th side opposite side each other.

As shown in Figure 4, measurement device structure is: the 3rd dry electrode centers in integrated collecting unit offers window, and the second reflective photoelectric sensor is placed in the 3rd dry electrode centers window interior.

In sum, these are only preferred embodiment of the present utility model, be not intended to limit protection domain of the present utility model.All within spirit of the present utility model and principle, any amendment done, equivalent replacement, improvement etc., all should be included within protection domain of the present utility model.

Claims (5)

1. human body many health parameters monitor system of hand-held, is characterized in that, comprising: electrocardiogram acquisition unit, blood oxygen collecting unit, physiological parameter resolution unit, display, alarm and radio-cell; Wherein, described electrocardiogram acquisition unit is made up of the first dry electrode, the second dry electrode and drive electrode RLD; Blood oxygen collecting unit is made up of the first reflective photoelectric sensor;

Described monitor system is loaded on hand-holdable housing;

Wherein, the surface of housing has the first Handheld Division, the second Handheld Division and relief area;

Be loaded on one of them Handheld Division by two dry electrodes, another dry electrode is loaded on another Handheld Division;

Drive electrode RLD for detecting electrocardiosignal and the first reflective photoelectric sensor for detecting blood oxygen are installed on the same Handheld Division in housing or are arranged on different Handheld Division respectively;

Display and alarm are installed on the relief area of hand-holdable housing;

Physiological parameter resolution unit and radio-cell are installed on the inside of hand-holdable housing;

Electrocardiogram acquisition unit, for gathering and obtaining the core signal ECG of human body, and is sent to physiological parameter resolution unit by the core signal ECG collected;

Blood oxygen collecting unit, for gathering and obtaining the photoplethysmographic trace signal PPG of human body, and is sent to physiological parameter resolution unit by the electrocardiosignal PPG collected;

Physiological parameter resolution unit is used for: by the core signal ECG of acquisition, photoplethysmographic trace signal PPG process, and then obtains hrv parameter, blood oxygen parameter, pulse frequency parameter and blood pressure parameter; The hrv parameter of acquisition, blood oxygen parameter, pulse frequency parameter and blood pressure parameter are sent to display display; The control signal being used for alarm parameters exception obtained is sent to alarm report to the police;

Radio-cell, for the hrv parameter of acquisition, blood oxygen, pulse frequency parameter and blood pressure parameter are sent to smart machine, the control signal being used for alarm parameters exception sent by smart machine sends to physiological parameter resolution unit.

2. the system as claimed in claim 1, it is characterized in that, described hand-holdable housing is rectangular structure, wherein, described rectangular structure by the first side (1) be connected successively, the second side (2), the 3rd side (3) and the 4th side (4), and is formed with interconnective front, above-mentioned four sides (5) and the back side (6) respectively;

Wherein, the first side (1), and the region of close first side (1) in the second side (2) and the 4th side (4) forms the first Handheld Division jointly;

3rd side (3), and the region of close first side (1) in the second side (2) and the 4th side (4) forms the second Handheld Division jointly;

Display and alarm are installed on the relief area part in the front (5) of hand-holdable housing.

3. the system as claimed in claim 1, is characterized in that, described physiological parameter resolution unit comprises:

For being resolved by the core signal ECG of acquisition, and then obtain hrv parameter and the corresponding moment T of eigenvalue R point _relectrocardio resolver;

For being resolved by acquisition photoplethysmographic trace signal PPG, and then obtain the corresponding moment T of blood oxygen parameter, pulse frequency parameter and eigenvalue point P point _pblood oxygen resolver;

For the moment T that electrocardio resolver is produced _rwith the moment T that blood oxygen resolver produces _psubtract each other, obtain pulse wave transmission time Δ _tsubtractor; And,

For by described pulse wave transmission time Δ _tresolve, and then obtain the blood pressure parameter resolver of blood pressure parameter;

Hrv parameter, the blood oxygen parameter of blood oxygen resolver generation and the blood pressure parameter of pulse frequency parameter and the generation of blood pressure parameter resolver for being produced by electrocardio resolver export to the output interface of display.

4. the system as claimed in claim 1, is characterized in that, described system comprises the integrated collecting unit be made up of the 3rd dry electrode and second reflective photoelectric sensor of compact Layout further; This integrated collecting unit is installed on one of them Handheld Division of housing, for gathering electrocardiosignal and photoplethysmographic trace signal simultaneously, and is sent to physiological parameter resolution unit.

5. system as claimed in claim 4, it is characterized in that, the 3rd dry electrode centers in integrated collecting unit offers window, and the second reflective photoelectric sensor is placed in the 3rd dry electrode centers window interior.