KR20220053846A - Ring type oxygen saturation measuring apparatus - Google Patents

Abstract

Disclosed is a ring-type oxygen saturation measurement apparatus to increase measurement accuracy of oxygen saturation. According to one embodiment of the present invention, the ring-type oxygen saturation measurement apparatus comprises: a main body unit including a measurement module measuring oxygen saturation of a user on the basis of an output signal of a light receiving unit receiving light emitted by a light transmitting unit; a first body unit formed to come in contact with at least a part of a skin surface of a user's finger; a second body unit formed to be spaced apart from the first body unit and coming in contact with at least another part of the skin surface of the user's finger; and a contact unit formed connected to an end of the first body unit and an end of the second body unit and elastically adjusting a distance between the first body unit and the second body unit to bring the first body unit and the second body unit into close contact with the user's finger contact skin surface regardless of the thickness of the user's finger.

Description

Ring type oxygen saturation measuring device {RING TYPE OXYGEN SATURATION MEASURING APPARATUS}

The present invention relates to a ring-shaped oxygen saturation measuring device, and more particularly, to a ring-shaped oxygen saturation measuring device capable of measuring oxygen saturation in daily life while wearing it by implementing miniaturization and low power.

As personalization and aging progress, individuals are paying more attention to their own health and performing regular health check-ups. However, since it is inconvenient to have to pay extra time for a health check-up, most of them visit a hospital when there is a health problem. However, it is inconvenient to visit the hospital for the elderly or the disabled who are inconvenient in movement or have chronic diseases, and it is possible to cope with dangerous situations only by periodically checking the state of the body (that is, the state of the body).

Oxygen saturation measurement is widely used as a measurement target for personal health. The oxygen saturation measurement measures the light absorption for each wavelength by the pulsation component of arterial blood to non-invasively calculate the blood oxygen saturation (SpO2).

Embodiments of the present invention provide a ring-shaped oxygen saturation measuring device capable of measuring oxygen saturation in daily life in a worn state by implementing miniaturization and low power.

A ring-shaped oxygen saturation measuring apparatus according to an embodiment of the present invention includes: a main body including a measurement module for measuring oxygen saturation of a user based on an output signal of a light receiving unit that receives light transmitted by a light transmitting unit; a first body portion formed to be in contact with at least a portion of the skin surface of the user's finger; a second body portion formed to be spaced apart from the first body portion and formed to contact at least another partial skin surface of the user's finger; and a terminal end of the first body portion and a terminal end of the second body portion, and elastically adjusting the distance between the first body portion and the second body portion, irrespective of the thickness of the user's finger, the first body and a contact portion for bringing the second body portion into close contact with the user's finger contact skin surface.

The first body part, the second body part, and the contact part are integrally formed of an elastic material, and may be formed in a ring shape.

The light transmitting unit and the light receiving unit may receive the light transmitted through a semi-convex lens.

One of the light transmitting part and the light receiving part may be formed on an inner surface of the first body part, and the other one of the light transmitting part and the light receiving part may be formed on the inner surface of the second body part.

The contact portion may be connected to a terminal end of the first body portion and a terminal end of the second body portion to form a 'U'-shaped curved shape.

The main body includes a display means for displaying the oxygen saturation of the user measured by the measurement module; and a charging terminal for charging the battery of the main body.

According to embodiments of the present invention, it is possible to measure oxygen saturation in daily life while wearing a ring-shaped oxygen saturation measuring device, and a light transmitting unit and a light receiving unit are placed on the skin surface in contact with the user's finger regardless of the thickness of the finger. By adhering to the , it is possible to stably detect a signal and improve the measurement accuracy of oxygen saturation.

According to embodiments of the present invention, by applying a semi-convex lens to the light transmitting unit and the light receiving unit, the driving current of the diode can be reduced, and it is realized in miniaturization and has the advantage of being able to live a life without a separate cable. .

1 shows the configuration of a ring-shaped oxygen saturation measuring device according to an embodiment of the present invention.
2 shows an exemplary view for explaining a semi-convex lens applied to a light transmitting unit and a light receiving unit.
3 shows a photograph of a state in which the device of the present invention is worn on a user's finger.

Advantages and features of the present invention and methods of achieving them will become apparent with reference to the embodiments described below in detail in conjunction with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but will be embodied in various different forms, and only these embodiments allow the disclosure of the present invention to be complete, and common knowledge in the art to which the present invention pertains It is provided to fully inform those who have the scope of the invention, and the present invention is only defined by the scope of the claims.

The terminology used herein is for the purpose of describing the embodiments, and is not intended to limit the present invention. In this specification, the singular also includes the plural unless specifically stated otherwise in the phrase. As used herein, "comprises" and/or "comprising" refers to the presence of one or more other components, steps, operations and/or elements mentioned. or addition is not excluded.

Unless otherwise defined, all terms (including technical and scientific terms) used herein may be used with the meaning commonly understood by those of ordinary skill in the art to which the present invention belongs. In addition, terms defined in a commonly used dictionary are not to be interpreted ideally or excessively unless specifically defined explicitly.

Hereinafter, preferred embodiments of the present invention will be described in more detail with reference to the accompanying drawings. The same reference numerals are used for the same components in the drawings, and repeated descriptions of the same components are omitted.

Embodiments of the present invention can measure oxygen saturation in daily life while wearing it, and by attaching the light transmitting unit and the light receiving unit to the skin surface in contact with the user's finger regardless of the thickness of the finger, stably detecting the signal to achieve the oxygen saturation level Its gist is to provide a ring-type oxygen saturation measuring device that can improve the measurement accuracy of

At this time, the oxygen saturation measuring device of the present invention can reduce the driving current of the diode, that is, the light transmitting part and the light receiving part by 50% by applying a semi-convex lens to the light transmitting part and the light receiving part, regardless of the thickness of the finger. Adjusting means that can adjust the elastic force of the curved shape that can adjust the adhesion so as to be in close contact with, for example, it may be provided with a contact part.

The present invention will be described with reference to FIGS. 1 to 3 as follows.

1 is a diagram showing the configuration of a ring-shaped oxygen saturation measuring device according to an embodiment of the present invention. FIG. 1a is a front view of the ring-shaped oxygen saturation measuring device, and FIG. A perspective view of the measuring device is shown.

Referring to FIG. 1 , a ring-shaped oxygen saturation measuring apparatus 100 according to an embodiment of the present invention includes a main body 110 , a first body part 120 , a second body part 130 , and a contact part 140 . , and a light transmitting unit 150 and a light receiving unit 160 .

The main body 110 controls the light transmitting unit 150 and the light receiving unit 160 , and measuring the oxygen saturation of the user based on the output signal of the light receiving unit 160 that receives the light transmitted by the light transmitting unit 150 . contains modules.

At this time, the main body 110 further includes a charging terminal 111 for charging the built-in battery of the main body using an external charging means and a display means (not shown) for displaying the user's oxygen saturation measured by the measurement module. can be provided Here, the charging terminal may be configured in the form of a terminal corresponding to the form of a cable with the charging means.

The body 110 may be electrically connected to the light transmitting unit 150 and the light receiving unit 160 disposed on the inner surfaces of the first body unit 120 and the second body unit 130 , and the electrical connection is the embodiment of the present invention. It may be determined by a business operator or an individual providing the technology, and a detailed description thereof will be omitted because the corresponding part may confuse the technical gist of the present invention.

The first body part 120 is formed to contact at least a part of the skin surface of the user's finger inserted into the device 100 . For example, the first body portion is physically connected to the body and is formed of an elastic material on the left side, and any one of the light transmitting unit 150 and the light receiving unit 160 is formed or disposed on the inner surface of the first body 130 . can

The second body 130 is formed to contact at least another partial skin surface of the user's finger inserted into the device 100 . For example, the second body part 130 is physically connected to the body 110 and is formed of an elastic material on the right side, and among the light transmitting part 150 and the light receiving part 160 on the inner surface of the second body part 130 . Either the other may be formed or disposed.

The contact portion 140 is connected to the end of the first body portion 120 and the end of the second body portion 130 , and the gap between the first body portion 120 and the second body portion 130 is elastically formed. to bring the first body part 120 and the second body part 130 into close contact with the user's finger contact skin surface regardless of the thickness of the user's finger.

At this time, the contact portion 140 is connected to the terminal end of the first body portion 120 and the terminal end of the second body portion 130 is formed in a 'U'-shaped curved shape, it can be formed of an elastic material. there is. Of course, the contact part is not limited to a 'U'-shaped curved shape, and the first body part 120 and the second body part 130 can be brought into close contact with the skin surface of the user's finger regardless of the thickness of the user's finger. It can be formed into all possible shapes.

Although the first body part 120 , the second body part 130 and the contact part 140 have been described as independent configurations, the first body part 120 , the second body part 130 and the contact part 140 . is not limited or limited to being independently configured, and the first body part 120 , the second body part 130 and the contact part 140 may be integrally formed of an elastic material, for example, a silicone material. That is, the first body portion 120 , the second body portion 130 , and the contact portion 140 may be integrally formed in a ring shape.

The light transmitting unit 150 is a means for emitting light, and includes a diode (eg, a light emitting diode) emitting infrared light and a specific color, for example, red light, and a half as shown in FIG. 2 on the upper part of the diode. A convex lens is formed.

Here, the light transmitting unit 150 may be disposed on the inner surface of any one of the first body portion 120 and the second body portion 130 , and the infrared and red light emitted through the semi-convex lens transmits the finger. Thus, it can be transmitted to the light receiving unit.

At this time, as shown in FIG. 2 , the semi-convex lens may include a primary refractive surface 151 formed as a concave surface with respect to the diode and a secondary refractive surface 152 formed as an outwardly convex convex surface. . For example, the light transmitted by the light transmitting unit 150 is spread in all directions through the primary refractive surface 151 of the semi-convex lens, and the light thus spread passes through the secondary refractive surface 152 convexly formed in the outward direction. It spreads once more. That is, the light refracted in a diffusion direction while passing through the primary refracting surface 151 is refracted in a diffusion direction once more while passing through the secondary refracting surface 152. will do

Here, the radius of curvature of the primary refractive surface 151 of the semi-convex lens may be larger than the radius of curvature of the secondary refractive surface 152 .

The light receiving unit 160 is a means for receiving light, and the infrared light transmitted from the light transmitting unit 150 and a specific color, for example, red light, pass through the user's finger, and receive the transmitted light.

In this case, the light receiving unit 160 may include a photodiode and a semi-convex lens shown in FIG. 2 . That is, the light receiving unit 160 has a semi-convex lens formed on the photo diode.

Here, the light receiving unit 160 may be disposed on the inner surface of the other of the first body portion 120 and the second body portion 130 , and the infrared and red light received through the semi-convex lens are received by the photodiode. can be

At this time, the light receiving unit 160 collects the light that has passed through the finger through the secondary refractive surface of the semi-convex lens and then focuses it again through the primary refractive surface. That is, since the light that is focused while passing through the secondary refracting surface is again focused while passing through the primary refracting surface, as a result, the light is focused and bent twice and is received by the photodiode. Similarly, the radius of curvature of the primary refractive surface of the semi-convex lens applied to the light receiving unit 160 may be formed to be larger than the radius of curvature of the secondary refractive surface.

As shown in FIG. 3 , the ring-shaped oxygen saturation measuring device 100 of the present invention is worn irrespective of the thickness of the user's finger by adjusting the elastic force by the contact part when it is applied to the user's finger. By adhering to the skin surface, the light emitted by the light transmitting unit 150 passes through the finger and is received by the light receiving unit 160, so the user's oxygen saturation is measured using the optical signal received from the measuring module to the light receiving unit 160 can be measured

That is, in the ring-shaped oxygen saturation measuring device of the present invention, the first body part 120 and the second body part 130 elastically according to the thickness of the user's finger to which the device of the present invention is fitted by the contact part 140 . By holding the first body part 120 and the second body part 130, the inner surfaces of the first body part 120 and the second body part 130 are brought into close contact with the user's finger contact skin surface, regardless of the thickness of the user's finger, so that the light transmitting unit and the light receiving unit are in contact with the finger skin. Since it is closely attached to the surface, the signal measurement accuracy can be improved.

In addition, the ring-shaped oxygen saturation measuring device according to the embodiment of the present invention applies the semi-convex lens shown in FIG. 2 to the light transmitting part and the light receiving part, thereby reducing the driving current of the diode by 50% to drive the device with low power. It can be realized in miniaturization so that it is possible to live a lifetime while wearing it without a separate cable.

In addition, the first body part 120 and the second body part 130 of the ring-shaped oxygen saturation measuring device according to an embodiment of the present invention perform a function of supporting the body because they are physically connected to the body 110 . You may.

As such, the device according to an embodiment of the present invention is formed in a ring shape and can measure oxygen saturation in daily life while wearing it, and the light transmitting unit and the light receiving unit are closely attached to the skin surface of the user's finger contact regardless of the thickness of the finger. By doing so, it is possible to stably detect a signal and improve the measurement accuracy of oxygen saturation.

In addition, the device according to the embodiment of the present invention can reduce the driving current of the diode by applying a semi-convex lens to the light transmitting unit and the light receiving unit. There is this.

As described above, although the embodiments have been described with reference to the limited embodiments and drawings, various modifications and variations are possible from the above description by those skilled in the art. For example, the described techniques are performed in an order different from the described method, and/or the described components of the system, structure, apparatus, circuit, etc. are combined or combined in a different form than the described method, or other components Or substituted or substituted by equivalents may achieve an appropriate result.

Therefore, other implementations, other embodiments, and equivalents to the claims are also within the scope of the following claims.

Claims (6)

a body including a measurement module for measuring oxygen saturation of a user based on an output signal of a light receiving unit that receives the light transmitted by the light transmitting unit;
a first body portion formed to be in contact with at least a partial skin surface of the user's finger;
a second body portion formed to be spaced apart from the first body portion and formed to contact at least another partial skin surface of the user's finger; and
The first body part is connected to the end of the first body part and the second body part, and the distance between the first body part and the second body part is elastically adjusted so that the first body part is irrespective of the thickness of the user's finger. and a contact portion for contacting the second body portion with the user's finger contact skin surface.
Ring-shaped oxygen saturation measuring device comprising a.
According to claim 1,
The first body portion, the second body portion and the contact portion
Ring-shaped oxygen saturation measuring device, characterized in that it is integrally formed of an elastic material and is formed in a ring shape.
According to claim 1,
The light transmitting unit and the light receiving unit
Ring-shaped oxygen saturation measuring device, characterized in that it receives and transmits the light through a semi-convex lens.
According to claim 1,
the first body part
Any one of the light transmitting unit and the light receiving unit is formed on the inner surface,
the second body part
Ring-shaped oxygen saturation measuring device, characterized in that the other one of the light transmitting part and the light receiving part is formed on an inner surface.
According to claim 1,
the contact part
Ring-shaped oxygen saturation measuring device, characterized in that it is connected to the end of the first body portion and the end of the second body portion is formed in a 'U'-shaped curved shape.
According to claim 1,
the body is
display means for displaying the oxygen saturation level of the user measured by the measurement module; and
A charging terminal for charging the battery of the main body
Ring-shaped oxygen saturation measuring device, characterized in that it further comprises.

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