KR101700584B1 - Oxygen saturation measuring apparatus - Google Patents

Abstract

The present invention relates to an oxygen saturation measuring apparatus capable of measuring an oxygen saturation from time to time in a state of being worn on a user's body and of confirming the oxygen saturation which is coincident with or close to the heart rate measured through the user's skin.
A feature of the present invention resides in that a body member 100 including a display unit 110 for outputting fixed information to a display and a bending member 100 for worn on the wrist of the user while the body member 100 is connected to the body member 100, A heart rate measuring member 300 disposed on the back surface of the body member 100 for measuring a heart rate on the upper surface of the wrist and a heart rate measuring member 300 provided on the bending member 200 and provided on the bending member 200, A plurality of oxygen saturation measuring members 400 for measuring the oxygen saturation in the body member 100 and controlling the selected oxygen saturation by controlling the control unit 120 to select the oxygen saturation corresponding to the heart rate among the oxygen saturations, And an oxygen saturation confirmation module 500 for outputting the information through the display unit 110 while informing and managing the heart rate, respectively.

Description

{OXYGEN SATURATION MEASURING APPARATUS}

The present invention relates to an oxygen saturation measuring apparatus capable of measuring an oxygen saturation from time to time in a state of being worn on a user's body and of confirming the oxygen saturation which is coincident with or close to the heart rate measured through the user's skin.

Generally, an oxygen saturation measuring apparatus is a device for measuring oxygen saturation of a human body by using a sensor.

More specifically, a general oxygen saturation measuring apparatus is a device for checking the blood flow state of a finger or a toe of a patient using a sensor and displaying the oxygen saturation measured through the blood flow state. In other words, the oxygen saturation measuring apparatus is a device for measuring oxygen saturation of arterial blood.

The above-mentioned oxygen saturation measuring apparatus is a pulse oximetry measuring apparatus, which uses the property that the amount of light sensed by the optical sensor is influenced by the sensitive fraction between the unsaturated hemoglobin and the saturated hemoglobin due to the expansion and contraction of the pulsatile arterial blood vessel , And the oxygen saturation of the arterial blood is measured.

The background art relating to the present invention is disclosed in Korean Patent Registration No. 10-0978907, filed and registered with the Korean Intellectual Property Office, on August 24, 2010.

The above-described conventional technique includes a sensor body into which a user's finger is inserted, a display body to display oxygen saturation sensed by the sensor body, and a connection line to electrically connect the sensor body and the display body.

However, since the above-described sensor body is formed in a cap shape and sensors are provided therein, it is troublesome to measure the oxygen saturation in a state in which the display body is gripped with one hand and the fingers of the other hand are inserted into the cap- , It is inconvenient to carry the sensor body and the display body separately.

SUMMARY OF THE INVENTION An object of the present invention is to provide an oxygen saturation measuring apparatus capable of measuring an oxygen saturation from time to time in a state of being worn on a user's body, .

An apparatus for measuring oxygen saturation according to an embodiment of the present invention includes: a body member 100 including a display unit 110 for outputting information to a display; A bending member 200 to be worn on the user's wrist while being connected to the body member 100; A heart rate measuring member 300 provided on the back surface of the body member 100 for measuring a heart rate on the upper surface of the wrist; A plurality of oxygen saturation measuring members 400 provided on a bending member 200 at a position opposite to the heart rate measuring member 300 to measure oxygen saturation at a lower surface of the wrist; And an oxygen saturation degree determining unit that selects an oxygen saturation corresponding to a heart rate among the measured oxygen saturations accumulated in the body member 100 and outputs the selected oxygen saturation and the heart rate through the display unit 110 while informing and managing the selected oxygen saturation degree and heart rate, And a module (500).

Preferably, the heart rate measuring member 300 includes a heart-rate light emitting unit 310 for emitting light, a heart-rate light-receiving unit 320 for receiving light emitted from the heart-rate light emitting unit 310, And a heart rate generator 330 for generating a heart rate signal corresponding to brightness of light.

Preferably, the heart-rate light emitting unit 310 is formed of a green LED.

Preferably, the oxygen saturation measuring member 400 includes an oxygen saturation light emitting portion 410 for emitting light, an oxygen saturation light receiving portion 420 for receiving light emitted from the oxygen saturation light emitting portion 410, And an oxygen saturation provoking unit 430 for emitting an oxygen signal corresponding to the brightness of light received by the oxygen saturation electrode 420.

Preferably, the oxygen saturation light emitting portion 410 is composed of a red LED 411 and an infrared ray 412.

The oxygen saturation confirmation module 500 preferably includes a measurement member operation part 510 for operating the heart rate measuring member 300 and the oxygen saturation measuring member 400 at a desired time, A heart rate recognizing unit 520 for recognizing and recognizing a pattern of the recognized heart rate by recognizing the heart rate measured by the saturation measuring member 400 and a measurement unit 500 for measuring the oxygen saturation from the heart rate measuring members 300 An oxygen saturation recognition unit 530 for recognizing and recognizing a pattern of the recognized oxygen saturation by recognizing a plurality of oxygen saturations respectively recognized by the oxygen saturation recognition unit 530 and the pattern information of the heart rate recognized by the heart rate recognition unit 520, And the pattern information of the oxygen saturation coinciding with or approaching the pattern information of the heart rate is set as a basic oxygen saturation degree, An output unit 550 for displaying the pattern information of the basic oxygen saturation degree selected by the basic oxygen saturation degree selecting unit 540 on the display unit 110 of the body member 100, And a storage unit 560 for storing the oxygen saturation for each measurement time period.

The bending member 200 may be provided on the body member 100 or the bending member 200 so as to operate the heart rate measuring member 300 and the oxygen saturation measuring member 400 when the bending member 200 is worn on the user's body, And a wearing state recognizing member (600) for recognizing the wearing state of the body (200).

Preferably, the wearing state recognizing member 600 includes a body sensing unit 610 for sensing the body of the user, a temperature sensing unit 610 for sensing the temperature of the body sensing unit 610, And a temperature sensing unit 620 for recognizing the heart rate measuring member 300 and the oxygen saturation measuring member 400. [

The oxygen saturation measuring apparatus according to an embodiment of the present invention is capable of measuring oxygen saturation from time to time in a state of being worn on the user's body so that it is advantageous to carry it and it is also possible to measure oxygen saturation There is an advantage that the activity can be continued without stopping the activity.

In addition, it is possible to confirm the oxygen saturation that matches or approaches the heart rate measured through the user's skin, so that the reliability of the measured oxygen saturation can be improved.

In addition, since it does not operate when it is worn on the wearer's body and separated from the body, there is an advantage that energy waste can be reduced.

1 is a perspective view showing an oxygen saturation measuring apparatus according to an embodiment of the present invention;
Figure 2 is a state of use in which the present invention is shown worn on the body.
3 is a block diagram schematically showing the configuration of the present invention.
FIG. 4 is a block diagram schematically showing a heart rate measuring member according to the present invention. FIG.
FIG. 5 is a block diagram schematically showing an oxygen saturation measuring member according to the present invention. FIG.
FIG. 6 is a block diagram schematically showing an oxygen saturation confirmation module according to the present invention. FIG.

Hereinafter, an apparatus for measuring oxygen saturation according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 to 3, the oxygen saturation measuring apparatus of the present invention includes a body member 100, a bending member 200, a heart rate measuring member 300, an oxygen saturation measuring member 400, And an oxygen saturation confirmation module 500.

The body member 100 includes a display unit 110 that is worn on the wrist and outputs various information to a display, and includes a hand mobile and a smart watch.

The display unit 110 may output information on the measured heart rate and oxygen saturation, respectively.

The bending member 200 may be made of elastic band having elasticity or may be adjusted in length by being worn on the user's wrist while being connected to the body member 100.

As shown in FIG. 4, the heart rate measuring member 300 is provided on the rear surface of the body member 100 to measure the heart rate on the upper surface of the wrist, and measures the heart rate on the user's wrist.

The heart rate measuring member 300 includes a heart-rate light emitting unit 310 for emitting light, a heart-rate light-receiving unit 320 for receiving light emitted from the heart-rate light emitting unit 310, And a heart rate signal generator 330 for generating a heart rate signal corresponding to the heart rate signal.

The heartbeat light emitting unit 310 may include a green LED capable of emitting bright light. At this time, the heart-rate light emitting unit 310 may be provided on the body member 100 to irradiate the radial artery located at the upper part of the wrist with light.

Accordingly, when the heart-rate light emitting unit 310 irradiates light to the radial artery of the wrist, the brightness of the light changes as the capillary blood vessels of the radial artery are expanded or contracted by the blood flow that is moved by the pumping of the heart. At this time, since the heartbeat light receiving unit 320 receives the light whose brightness changes in real time due to expansion and contraction of the capillary, the heartbeat generating unit 330 emits the respective heartbeat signals corresponding to the brightness of the light.

As shown in FIG. 5, the oxygen saturation measuring member 400 includes a plurality of oxygen saturation measuring members 400 and is provided on the bending member 200 to measure the oxygen saturation at the lower surface of the wrist, thereby measuring the oxygen saturation of the user's wrist. Here, the degree of oxygen saturation refers to the ratio of the oxygen hemoglobin to the effective hemoglobin as a measure of the degree of binding of oxygen hemoglobin, and broadly, is a percentage of the oxygen content in the sample blood and the maximum oxygen content of the blood.

The oxygen saturation measuring member 400 includes an oxygen saturation light emitting unit 410 for emitting light, an oxygen saturation light receiving unit 420 for receiving light emitted from the oxygen saturation emitting unit 410, And an oxygen saturation provoking unit 430 that emits an oxygen signal corresponding to the brightness of the light to be received.

The oxygen saturation light emitting unit 410 includes a red LED 411 emitting red light having a large light absorption difference between hemoglobin Hb and oxygen hemoglobin HbO2 and an infrared ray 411 emitting infrared light having a characteristic opposite to that of red light 412) are formed as a pair. The pair of red LEDs 411 and the infrared ray 412 are formed in a number of ways to cover the lower surface of the wrist. At this time, the heart-rate light emitting unit 310 may be provided on the bending member 200 to irradiate the ulnar artery with light from the wrist.

The oxygen saturation light receiving unit 420 may include a CCD sensor or a CCD sensor which is installed in a corresponding number to the oxygen saturation light emitting unit 410 and excludes a hot mirror filter or IR cot-off filter for blocking infrared rays, And a CMOS sensor. That is, the CCD sensor or the CMOS sensor can receive the light emitted from the red LED 411 and the infrared ray 412, which are the oxygen saturation light emitting portion 410, because the hot mirror filter or the IR cutoff filter is not installed.

Accordingly, when light emitted from the red LED 411 and the infrared ray 412, which are the oxygen saturation light emitting unit 410, is irradiated to the blood vessel, the oxygen saturation light receiving unit 420 receives the light irradiated in real time. At this time, as the brightness of the light is changed in real time by the blood vessel, the oxygen saturation provoking unit 430 receives the oxygen saturation provoking signal 430 and transmits an oxygen signal corresponding to the brightness of the light. That is, the oxygen saturation measuring member 400 can measure the oxygen saturation of the blood using the difference of the light absorption according to the oxygen saturation of the hemoglobin that carries oxygen.

This oxygen saturation measuring member 400 is capable of measuring oxygen saturation at a plurality of points on the underside of the user's wrist.

6, the oxygen saturation confirmation module 500 is installed in the body member 100 by an application or the like, and the plurality of oxygen saturations measured by the oxygen saturation measuring member 400 are stored in the heart rate measuring member 300 An oxygen saturation having a pattern corresponding to the heart rate is selected among a plurality of oxygen saturations compared with the measured heart rate, and is displayed through the display unit 110. [

The oxygen saturation determination module 500 includes a measurement member operation unit 510, a heart rate recognition unit 520, an oxygen saturation recognition unit 530, a basic oxygen saturation selection unit 540, an output unit 550 , And a storage unit 560. [

The measurement member actuating part 510 operates the heart rate measuring member 300 and the oxygen saturation measuring member 400 at a time desired by the user.

The heart rate recognizing unit 520 recognizes the heart rate measured by the oxygen saturation measuring member 400 and recognizes and recognizes the pattern of the recognized heart rate. The heart rate recognized by the heart rate recognizer 520 is stored by the storage unit 560.

The oxygen saturation recognition unit 530 recognizes a plurality of oxygen saturations measured by the oxygen saturation measuring members 400, and recognizes and recognizes the pattern of the recognized oxygen saturation. The oxygen saturation recognition unit 530 can recognize the pattern of the oxygen saturation confirmed by the respective oxygen saturation light receiving units 420.

The basic oxygen saturation selecting unit 540 compares the pattern information of the heart rate recognized by the heart rate recognizing unit 520 with the information of each of the oxygen saturation levels recognized by the oxygen saturation identifying unit 530, The pattern information of the oxygen saturation to be matched or approximated is selected as the basic oxygen saturation. Basically, since oxygen saturation has the same plate pattern as the heart rate, the most or the same oxygen saturation among the plurality of measured oxygen saturations is used as the basic oxygen saturation. The basic oxygen saturation selected in the basic oxygen saturation selector 540 is stored by the storage unit 560. [

The output unit 560 displays pattern information of the basic oxygen saturation selected by the basic oxygen saturation selecting unit 540 on the display unit 110 of the body member 100. The output unit 560 may display the heart rate sensed by the heart rate sensing unit 520 on the display unit 110 simultaneously with or simultaneously with the oxygen saturation.

The storage unit 560 stores the measured heart rate and the selected oxygen saturation for each measurement time period, and the heart rate and oxygen saturation stored by the storage unit 560 are used to check the health condition of the wearer.

Accordingly, in the present invention, accurate oxygen saturation can be measured based on the heart rate measured in the user's body. Thus, the measured heart rate can be used not only to calculate the calorie consumption according to the exercise, but also as a reference for setting the appropriate exercise intensity.

1 and 3, the present invention is provided in the body member 100 or the bending member 200 so that when the bending member 200 is worn on the user's body, the heart rate measuring member 300 and the oxygen saturation measuring member (600) for recognizing the wearing state of the bending member (200) so as to operate the bending member (400).

The wearing state recognizing member 600 includes a body sensing unit 610 for sensing the body of the user, a temperature sensing unit 610 for sensing a temperature that matches the preset temperature through the body of the user, And a temperature sensing unit 620 for operating the heart rate measuring member 300 and the oxygen saturation measuring member 400.

The body sensing unit 610 can be configured as a proximity sensor or a touch sensor, so that the user can sense the state where the bending member 200 is worn on the user's body.

The temperature sensing unit 620 may include a temperature sensor, and may be operated according to the sensing of the body sensing unit 610 to measure the temperature of the user's body.

Here, the reference temperature can be set in the temperature sensor, and the reference temperature can be 36.5 degrees Celsius. In addition, the temperature sensor can be configured to send an activation signal to activate the oxygen saturation confirmation module 500 when a temperature that corresponds to the reference temperature is measured. Accordingly, when the user wears the banding member 200 on the wrist, the temperature sensor is activated as the body sensing unit 610 provided on the banding member 200 senses the wearing state. When the user measures the temperature of 36.5 degrees Celsius in the wrist, The heart rate measuring member 300 and the oxygen saturation measuring member 400 can be operated by transmitting a signal for operating the member 300 and the oxygen saturation measuring member 400 to the body member 100. [ At this time, when the heart rate measuring member 300 and the oxygen saturation measuring member 400 are operated, the oxygen saturation confirmation module 500 may be operated.

Of course, the temperature sensor stops the oxygen saturation confirmation module 500 if the reference temperature is not measured.

As described above, the present invention is automatically operated when worn on the body, so that the heart rate is measured to calculate the heart rate and the oxygen saturation, and it is not operated unless it is worn on the body.

Particularly, it is possible to accurately confirm the user's own heart rate through the present invention, so that it can be very usefully used to set and perform exercise suitable for the user's body condition.

As described above, since the heart rate and oxygen saturation can be accurately measured according to the present invention, it is a very useful invention that can be widely applied to an apparatus for measuring heart rate for health care.

It will be understood by those skilled in the art that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. It is to be understood, therefore, that the embodiments described above are to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, All changes or modifications that come within the scope of the equivalent concept are to be construed as being included within the scope of the present invention.

100: body member 110:
200: Bending member 300: Heart rate measuring member
310: heart rate light emitting unit 320: heart rate light receiving unit
330: heart rate sensor 400: member for measuring oxygen saturation
410: Oxygen saturation light emitting unit 411: Red LED
412: infrared ray 420: oxygen saturation light receiving section
430: Oxygen saturation induction burner 500: Oxygen saturation confirmation module
510: measuring member operating part 520: heart rate recognizing part
530: oxygen saturation recognition unit 540: basic oxygen saturation selection unit
550: output unit 560: storage unit
600: wearing state recognizing member 610:
620: Temperature sensor

Claims (8)

A body member (100) including a display unit (110) for outputting information to a display;
A bending member 200 to be worn on the user's wrist while being connected to the body member 100;
A heart rate measuring member 300 provided on the back surface of the body member 100 for measuring a heart rate on the upper surface of the wrist;
A plurality of oxygen saturation measuring members 400 provided on a bending member 200 at a position opposite to the heart rate measuring member 300 to measure oxygen saturation at a lower surface of the wrist;
An oxygen saturation confirmation module for selecting the oxygen saturation corresponding to the heart rate among the measured oxygen saturations embedded in the body member 100 and outputting the selected oxygen saturation and the heart rate through the display unit 110 while informing and managing the selected oxygen saturation and the heart rate, (500)
The heart rate measuring member 300
A heart-rate light emitting unit 310 that emits green light including a green LED;
A heartbeat light receiving unit 320 for receiving light emitted from the heartbeat light emitting unit 310;
And a heart rate generator 330 for generating a heart rate signal corresponding to brightness of light received by the heart rate receptor 320
The oxygen saturation measuring member 400 includes:
An oxygen saturation light emitting portion 410 that emits red light and infrared light including red LED and infrared LED;
An oxygen saturation light receiving portion 420 for receiving light emitted from the oxygen saturation light emitting portion 410,
And an oxygen saturation degree derivation unit (430) for emitting an oxygen signal corresponding to the brightness of light received by the oxygen saturation light receiving unit (420).
delete delete delete delete The method of claim 1, wherein the oxygen saturation verifying module (500)
A measurement member operating part 510 for operating the heart rate measuring member 300 and the oxygen saturation measuring member 400 at a time desired by the user;
A heart rate recognizing unit 520 for recognizing a heart rate measured by the oxygen saturation measuring member 400 in the heart rate measuring member 300 and digitizing and recognizing a pattern of the recognized heart rate;
An oxygen saturation recognition unit 530 recognizing a plurality of oxygen saturations measured by the oxygen saturation measuring members 400 in the heart rate measuring members 300 and digitizing and recognizing a pattern of the recognized oxygen saturation;
The pattern matching unit 520 compares the pattern information of the heart rate recognized by the heart rate recognizing unit 520 with the information of the respective oxygen saturation levels recognized by the oxygen saturation level recognizing unit 530, A basic oxygen saturation selector 540 for selecting the pattern information as the basic oxygen saturation;
An output unit 550 for displaying the basic oxygen saturation pattern information selected by the basic oxygen saturation selecting unit 540 on the display unit 110 of the body member 100;
And a storage unit (560) for storing the measured heart rate and the selected oxygen saturation for each measurement time period.
The heart rate measuring member (300) and the oxygen saturation measuring member (400) are provided on the body member (100) or the bending member (200) and the bending member (200) And a wearing state recognizing member (600) for recognizing the wearing state of the bending member (200).
[Claim 9] The apparatus according to claim 7, wherein the wearing state recognizing member (600)
A body sensing unit 610 for sensing the user's body,
A temperature sensing unit (not shown) for operating the heart rate measuring member 300 and the oxygen saturation measuring member 400 when the temperature sensing unit 610 senses a temperature that matches the preset temperature through the user's body, 620). ≪ / RTI >

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