KR102471887B1 - Smart diagnostic device with improved accuracy - Google Patents

Abstract

The smart diagnosis device with improved examination reliability of the present invention includes a main body, a head coupled to the main body, and provided to obtain diagnostic information representing the physical condition of a subject, and based on the diagnostic information, A control unit that generates abnormality determination information, which is information for determining whether or not there is an abnormality in the physical state of a subject for examination, and is connected to the control unit to receive and output at least one selected piece of information selected from among the diagnosis information and the abnormality determination information. It includes one or more output units and a communication unit for performing a wired/wireless communication connection between the control unit and the output unit, and the head unit detects at least one type of sensing capable of measuring a signal including any one or more elements selected from among sound, vibration, current, and motion. It is characterized by including a module.

Description

Smart diagnostic device with improved accuracy}

The present invention relates to a diagnostic device for determining the physical condition of a subject for examination, and more particularly, collects various information that can be obtained from the human body of a subject for examination, and at the same time, detects whether or not there is an abnormality in each body part and specific lesions. It relates to a smart diagnostic device with improved examination reliability that can quickly and accurately determine

As is well known, the stethoscope, which quickly and accurately conveys the patient's medical condition to the doctor, is the most basic in medical diagnosis despite the spread of the latest diagnostic imaging devices such as MRI (Magnetic Resonanee Imaging System) and CT (Computerized Tomography). It is a medical device with a high utilization rate.

Looking at such a conventional stethoscope, since it is connected to the sonar detector through a limited synthetic resin tube with a length of about 40 cm, during auscultation, the medical staff had to lower their head to auscultate due to the length of the tube, which was inconvenient. In particular, when measuring blood pressure, the stethoscope The line in the line was not only a hindrance, but also a source of noise.

In addition, during auscultation, there is a possibility of misdiagnosis because various types of noise are generated due to the body contact of the subject for examination, and the measurement of the biological sound due to the noise is not accurately performed.

In addition, the conventional stethoscope is designed to limitly measure the biological sound generated from a specific body part of the subject, so when diagnosing a subject with a problem such as a blood vessel, only a conventional stethoscope with a narrow diagnostic area can be used. There is a problem in that it is somewhat difficult to make an accurate diagnosis of the state of a blood vessel of a subject for examination.

In addition, since one user, that is, a doctor, used a stethoscope for one-on-one examination of one checkup subject, the possibility of misdiagnosis could not be completely ruled out, and sound waves outside the audible frequency band could not be heard by the user. also exists.

Prior Document 1) (Patent Document 1) Korea Patent Registration No. 10-1308417 (2013.09.09)

Accordingly, an object of the present invention is to solve the above problems, and to provide a smart diagnosis device having improved examination reliability that solves the problems of the prior art.

Specifically, an object of the present invention is to diagnose the physical condition of a subject for examination based on the biometric sound of the subject for examination, while expanding the diagnosable area when diagnosing the subject's physical condition, thereby providing clearer and more diverse diagnosis. An object of the present invention is to provide a smart diagnostic device with improved reliability of examination capable of securing information.

The smart diagnosis device with improved examination reliability of the present invention includes a main body, a head coupled to the main body, and provided to obtain diagnostic information representing the physical condition of a subject, and based on the diagnostic information, A control unit that generates abnormality determination information, which is information for determining whether or not there is an abnormality in the physical state of a subject for examination, and is connected to the control unit to receive and output at least one selected piece of information selected from among the diagnosis information and the abnormality determination information. At least one type of signal including at least one output unit and a communication unit for performing a wired/wireless communication connection between the control unit and the output unit, and the head unit is capable of measuring a signal including any one or more elements selected from among sound, vibration, current, temperature, and motion. It is characterized in that it includes the above sensing module.

More specifically, the sensing module includes a biological sound sensor configured to detect a biological sound signal and a noise sensor configured to detect a noise signal including a frictional sound generated when the head unit is operated, and the control unit The biological sound signal and the noise signal may be received, a noise canceling signal for canceling the noise signal may be generated, and the biological sound signal may be filtered based on the noise canceling signal and provided to an output unit.

More specifically, the sensing module is provided to collect complex information, which is information including at least one selected from among heart rate values, electrocardiogram values, body temperature values, oxygen saturation values, blood pressure values, blood sugar values, image information, and ultrasound information. It is characterized in that it further comprises a complex information collection sensor.

More specifically, the head unit may include at least one head unit provided to be in contact with at least one or more zones formed in different body parts among body parts of the examination subject.

More specifically, the head unit is integrally coupled to the body unit and is formed independently of the body unit and a first head unit provided to acquire the diagnostic information in a randomly selected first area, and the first area and a second head unit provided to acquire the diagnostic information in a second area formed at a location spaced apart by a predetermined distance.

More specifically, the head unit may include a first head unit configured to acquire biological sounds in a first zone and a biological sound spaced apart from the first zone by a predetermined distance after the point at which the biological sounds are acquired through the first head unit. and a second head unit configured to acquire biological sounds in a second zone formed at the location, wherein the control unit determines when biological sounds are acquired from the first head unit and when biological sounds are acquired from the second head unit. It is characterized in that it is provided to generate measurement time difference information, which is information indicating a time interval between

More specifically, the control unit is provided to collect reference time difference information, which is information indicating a criterion for determining whether or not there is an abnormality in the body condition of the examination subject, and compares the measured time difference information with the reference time difference information to determine the physical abnormality of the examination subject. It is characterized in that it is provided to generate abnormality determination information, which is information for determining the state.

More specifically, the head unit includes a head unit body, a contact portion fastened to the head unit body, and a contact portion provided in the head unit body so as to be contactable with the body of an examination subject, and distributing a predetermined amount of heat toward the contact portion. It is characterized in that it includes a heat generating module provided to emit.

More specifically, the head unit is characterized in that a cross section of the contact portion is formed to have a predetermined curvature.

More specifically, the contact portion is characterized in that it is made of a material having an elastic restoring force that can be deformed by an external force.

The smart diagnosis device with improved examination reliability according to the present invention proceeds to acquire diagnosis information of a subject to be diagnosed through at least one type of sensing module, thereby providing more detailed and accurate diagnosis than a conventional stethoscope capable of diagnosis only with biological sounds. It is possible to provide an effect of obtaining diagnosis information of a diagnosis subject.

In addition, it is constructed so that a plurality of doctors, that is, users, can obtain diagnosis information on one person to be diagnosed through an output unit connected by wired or wireless communication, so that diagnosis is performed by multiple users rather than by one user. It is possible to provide an effect capable of providing more accurate diagnosis results.

In addition, more reliable diagnosis information can be provided by mounting a biological sound sensor and a noise sensor to attenuate noise caused by fricative sounds that may occur during diagnosis so that clearer biological sounds can be obtained.

In addition, by mounting the complex information collection sensor, the physical condition of the subject can be comprehensively grasped, thereby providing an effect of easily grasping the physical condition of the subject without using other examination devices.

In addition, by including at least one head unit, compared to a conventional stethoscope that limitedly obtains only the biological sound of a specific organ during auscultation and proceeds with the examination, the biological sound generated in at least one or more organs during auscultation is performed once. can be measured, providing the effect of clearly identifying additional information such as the state of blood vessels connecting organs.

In addition, hygiene can be further improved by separating the first head unit from the main body to be washed and stored through the first head unit which is integrally coupled to and detachable from the main body when not in use.

In addition, by enabling the second head unit formed independently of the main body to simultaneously measure biological sounds generated from at least one organ, the effect of additionally obtaining information on the blood vessel state of the examination subject is achieved. can provide

In addition, by enabling time difference information to be obtained, an effect of additionally acquiring information on a blood vessel state interconnecting organs of a subject to be examined can be provided based on the time difference information.

In addition, by enabling time difference information to be obtained, information on a state of blood vessels interconnecting organs of the examination subject may be additionally obtained based on the time difference information.

In addition, through the heating module, when the above-described contact part of the head part is in contact with the body of the subject for examination, an effect of minimizing discomfort and foreign body sensation that the subject may feel due to the low-temperature contact part may be provided.

In addition, through the contact part designed to have a predetermined curvature, it is possible to maintain a more stable contact state with respect to body parts with flexion such as the wrist and ankle of the subject for examination, thereby reducing noise due to lack of contact surface that may occur during diagnosis. By minimizing it, more reliable diagnostic information can be provided.

In addition, by designing to be deformable in response to body parts with flexion such as the wrists and ankles of the examination subject, it is possible to maintain a more stable contact state, thereby minimizing noise due to lack of contact surfaces that may occur during diagnosis, resulting in more reliability. diagnostic information can be provided.

1 is a front view showing the front of a smart diagnosis device with improved examination reliability according to an embodiment of the present invention.
2 is a block diagram showing each component constituting a smart diagnosis device with improved examination reliability according to an embodiment of the present invention.
3 is a cross-sectional view schematically illustrating a cross-section of a head unit of a head unit constituting a smart diagnostic device having improved examination reliability according to an embodiment of the present invention.
4 is a cross-sectional view schematically illustrating a cross-section of a head unit of a head unit constituting a smart diagnosis device having improved examination reliability according to another embodiment of the present invention.
5 is a use state diagram schematically showing a use state of a smart diagnosis device having improved examination reliability according to an embodiment of the present invention.
FIG. 6 is a graph schematically illustrating a biometric sound acquisition point acquired through a smart diagnosis device with improved examination reliability according to an embodiment of the present invention.

Advantages and features of the present invention, and methods of achieving them, will become clear with reference to the detailed description of the following embodiments taken in conjunction with the accompanying drawings.

However, the present invention is not limited to the embodiments disclosed below and can be implemented in various different forms, only these embodiments are intended to complete the disclosure of the present invention, and are common in the art to which the present invention belongs. It is provided to fully inform the knowledgeable person of the scope of the invention, and the invention is only defined by the scope of the claims.

Also, terms used in this specification are for describing the embodiments and are not intended to limit the present invention.

In this specification, singular forms also include plural forms unless specifically stated otherwise in a phrase. As used herein, "comprises" and/or "comprising" does not exclude the presence or addition of other components than the recited components.

Unless otherwise defined, all terms (including technical and scientific terms) used in this specification may be used in a meaning commonly understood by those of ordinary skill in the art to which the present invention belongs.

1 is a front view showing the front of a smart diagnosis device with improved examination reliability according to an embodiment of the present invention, and FIG. 2 is a front view showing each component constituting the smart diagnosis device with improved examination reliability according to an embodiment of the present invention. It is a block diagram shown.

As shown in FIGS. 1 and 2 , the smart diagnosis device with improved examination reliability of the present invention includes a body part 100, a head part 200, a control unit 300, an output unit 400, and a communication unit 500. It is characterized in that it includes.

First, the main body 100 is designed to be gripped by a user in order to diagnose a subject for diagnosis, and the control unit 300 and the communication unit 500 are accommodated in the main body 100 .

Next, the head part 200 is detachably coupled to the body part 100 described above, and is provided to obtain diagnostic information representing the physical condition of the subject for examination.

In this case, the head unit 200 may include a head unit 210 and a sensing module 220 .

In addition, at least one head part 200 is provided so as to be able to contact at least one area formed in different body parts among the body parts of the examination subject.

More specifically, as shown in FIG. 2 , the head unit 210 includes a first head unit 210a and a second head unit 210b.

In particular, the first head unit 210a is provided to be detachable from the main body 100 while being integrally coupled to the main body 100 .

Also, the first head unit 210a is provided to acquire the above-described diagnosis information on a randomly selected first region among body regions of a subject to be diagnosed.

In this way, through the first head unit integrally coupled to and detachable from the main body, when not in use, the first head unit can be separated from the main body to be washed and stored, so that hygiene can be further improved.

Also, the second head unit 210b is formed independently of the main body 100 and may be provided to be communicatively connected to the control unit.

Here, the second head unit 210b is provided to acquire the diagnostic information in a second area formed at a location spaced apart from the first area by a predetermined distance.

In this case, as shown in FIG. 2 , the second head unit 210b may be wired through a cable member.

In addition, although not particularly shown in the drawing, the second head unit 210b is provided to be connected to the control unit through wireless communication and can transmit/receive various types of information acquired through the second head unit 210b based on wireless communication. Of course there is.

In this way, the biological sound generated in at least one or more organs can be simultaneously measured through the second head unit formed independently of the main body, so that additional information on the blood vessel state of the examination subject can be obtained. can provide.

In addition, by including at least one head unit, compared to a conventional stethoscope that limitedly obtains only the biological sound of a specific organ during auscultation and proceeds with the examination, the biological sound generated in at least one or more organs during auscultation is performed once. can be measured, providing the effect of clearly identifying additional information such as the state of blood vessels connecting organs.

The sensing module is provided in the head unit and is configured to include at least one sensing module 220 capable of measuring a signal including any one or more elements selected from among sound, vibration, current, temperature, and motion. .

More specifically, the sensing module 220 is characterized by including a biological sound sensor 221, a noise sensor 222, and a complex information collection sensor 223.

First, the biological sound sensor 221 is provided to detect a biological sound signal, which is a sound signal generated from a user's body.

Also, the noise sensor 222 is provided to detect a noise signal, which is a signal including frictional noise and ambient noise generated when the head unit is operated.

As described above, more reliable diagnosis information can be provided by mounting the biological sound sensor and the noise sensor to attenuate noise caused by fricative sounds that may occur during diagnosis so that more clear biological sounds can be obtained.

In addition, the complex information collection sensor 223 is provided to collect complex information, which is information including at least one selected from heart rate, electrocardiogram, body temperature, oxygen saturation, blood pressure, blood sugar, and ultrasound information.

Here, the complex information collection sensor 223 includes a sensor that measures an electrical signal such as an ECG (electrocardiogram) sensor.

In this way, by mounting the complex information collection sensor, the physical condition of the subject for examination can be comprehensively grasped, thereby providing an effect of easily grasping the physical condition of the subject without using other examination devices. .

Further, the control unit 300 is provided to generate abnormality determination information, which is information for determining whether or not there is an abnormality in the physical state of the examination subject, based on the diagnosis information.

In addition, after receiving the biological sound signal and the noise signal, the control unit 300 generates a noise canceling signal for canceling the noise signal.

Thereafter, the control unit 300 is provided to filter the biological sound signal based on the noise canceling signal and provide it to an output unit.

In this way, more reliable diagnosis information can be provided by mounting the biological sound sensor and the noise sensor to attenuate noise caused by fricative sounds that may occur during diagnosis so that more clear biological sounds can be obtained.

And, the output unit 400 is provided to output various types of information generated through the control unit 300, and while being connected to the control unit 300 in communication, the diagnosis information and the abnormality from the control unit 300 It is provided to receive and output any one or more pieces of information selected from the existence determination information.

At this time, the output unit 400 may be connected to the control unit 300 to enable wired/wireless communication, and at least one output unit 400 may be provided so that at least one user may grasp various information related to the subject of diagnosis. have.

In this way, through the output unit 400 connected to the head unit 200 and the control unit 300 through wired/wireless communication, it is constructed so that a plurality of doctors, that is, users, can obtain diagnosis information on one person to be diagnosed. , it is possible to provide an effect of providing more accurate diagnosis results by performing diagnosis by multiple users rather than by one user.

And, the communication unit 300 is built to proceed with a wired/wireless communication connection between the control unit 300 and the output unit 400, and may include a mobile communication module, a short-distance communication module, and a location information module.

The mobile communication module transmits and receives a radio signal with at least one of a base station, an external terminal, and a server on a mobile communication network. Here, the wireless signal may include a voice signal, a video call signal, or various types of data according to text/multimedia message transmission and reception.

The short-distance communication module refers to a module for short-distance communication. Bluetooth, Radio Frequency Identification (RFID), Infrared Data Association (IrDA), Ultra Wideband (UWB), ZigBee, and the like may be used as short-distance communication technologies.

The location information module is a module for acquiring the location (or current location) of the terminal, and representative examples thereof include a Global Positioning System (GPS) module or a Wireless Fidelity (WiFi) module.

In addition, a memory unit 700 may be provided to store the collected reference information so that the examination of the same examination subject can be performed more quickly.

In addition, the memory unit 700 stores data supporting various functions. The memory unit may store a plurality of application programs (application programs or applications), data for operating the diagnostic device, and commands.

Here, the memory unit 700 enables storage of the above-described abnormality determination information and integrated abnormality determination information as well as the storage of the reference information, so that the examination history for the examination subject can be checked more easily. can provide.

In addition, the power supply unit receives external power and internal power under the control of the controller and supplies power to each component included in the diagnostic device 1000 of the present invention. The power supply includes a battery, and the battery may be a built-in battery or a replaceable battery.

Next, with reference to FIG. 3 , the head unit of the head unit constituting the smart diagnosis device having improved examination reliability according to an embodiment of the present invention will be described in more detail.

3 is a cross-sectional view schematically illustrating a cross-section of a head unit constituting a smart diagnosis device with improved examination reliability according to an embodiment of the present invention.

As shown in FIG. 3 , the head unit includes a head unit body 211 , a contact part 212 and a heating module 213 .

The head unit body 211 has a predetermined accommodating space formed therein, and is provided to accommodate the above-described sensing module 220 in the accommodating space and to allow the contact part 212 to be coupled to the front surface. .

Further, the contact portion 212 is formed to have a predetermined area so as to be in contact with the body of the examination subject while being fastened to the head unit body 211 .

At this time, the contact portion 212 is attached to the front surface of the head unit body 211 and is made of a sound wave conductor including a metal capable of conducting sound waves.

In addition, it goes without saying that the contact portion 212 may be made of a plate-shaped metal material having a thickness within a range deformable by an external force.

In addition, the heating module 213 is provided in the head unit body and is provided to emit a predetermined amount of heat toward the contact portion 212 .

In this case, the heating module 213 may be provided on a surface opposite to the exposed surface of the contact part 212 and may include a thermoelectric element.

In this way, through the heating module 213 described above, when the contact part having a lower temperature than the temperature of the user's body comes into contact with the body of the examination subject, the examination subject can feel the low temperature contact part. It can provide an effect that can minimize discomfort and foreign body sensation.

In addition, by designing to be deformable in response to body parts with flexion such as the wrists and ankles of the examination subject, it is possible to maintain a more stable contact state, thereby minimizing noise due to lack of contact surfaces that may occur during diagnosis, resulting in more reliability. diagnostic information can be provided.

Next, with reference to FIG. 4 , the head unit of the head unit constituting the smart diagnostic device having improved examination reliability according to another embodiment of the present invention will be described in detail.

4 is a cross-sectional view schematically illustrating a cross-section of a head unit constituting a smart diagnosis device with improved examination reliability according to another embodiment of the present invention.

First, since the contents related to the configuration except for the contact part are the same as the contents described with reference to FIG. 3, detailed descriptions will be omitted to avoid redundant description.

As shown in FIG. 4 , the contact portion 212 constituting the head unit 210 of the head portion according to another embodiment of the present invention is characterized in that the cross section is formed to have a predetermined curvature.

In particular, the contact part 212 may be provided to have a concave shape toward the rear end of the head unit 210 so as to come into close contact with a body part where there is flexion, such as a wrist or ankle of a subject to be examined.

At this time, the contact part 212 is attached to the front surface of the head unit body 211, is made of a sound wave conductor including a metal capable of conducting sound waves, and has a plate-shaped metal material having a thickness within a range deformable by an external force. Of course, it can be produced as.

In addition, through the contact part 212 designed to have a predetermined curvature, it is possible to maintain a more stable contact state with respect to the body part where there is curvature such as the wrist or ankle of the subject for examination, thereby reducing the lack of contact surface that may occur during diagnosis. It is possible to provide more reliable diagnostic information by minimizing noise caused by

Next, with reference to FIGS. 5 and 6 , a process of providing various types of information acquired through the smart diagnosis device having improved reliability of examination according to the present invention will be described in detail.

5 is a use state diagram schematically illustrating a use state of a smart diagnosis device with improved examination reliability according to an embodiment of the present invention, and FIG. FIG. 7 is an exemplary diagram illustrating processed diagnosis information acquired and outputted through a smart diagnosis device with improved examination reliability according to an embodiment of the present invention.

First, as shown in FIG. 5, examining the state of use of the smart diagnosis apparatus having improved reliability of examination according to an embodiment of the present invention, the first head unit 210a and the second head unit 210b are respectively It is used to contact other parts of the body.

More specifically, the first head unit 210a acquires biological sounds from a first region, which is a region relatively close to the heart, among various body parts of the user.

In addition, the second head unit 210b acquires biological sounds in a second area, which is an area where a body part located a predetermined distance from the first area is located.

Referring to FIG. 6 in more detail, first, the control unit collects reference time difference information, which is information indicating a criterion for determining whether or not there is an abnormality in the physical condition of a subject for examination.

Here, the reference time difference information is the biological sound acquisition time (t ₁ ) in the first area of the examination subject in a normal state and the biological sound acquisition time (t t ) in the second area spaced a predetermined distance from the first area. ₂ ).

In this case, the reference time difference information may be changed according to the age of the examination subject.

Thereafter, the biological sound of the second zone is acquired through the second head unit 210b. The biological sound acquisition time point is the biological sound acquisition time point (t ₁ ) through the first head unit 210a. It is characterized in that it is a later time point (t ₃ ).

Here, the controller is provided with a biological sound acquisition time point (t ₃ ) through the second head unit 210b and a biological sound acquisition time point (t ₁ ) through the first head unit.

Thereafter, the control unit provides information indicating a time interval between a biological sound acquisition time point t ₃ through the second head unit 210b and a biological sound acquisition time point t ₁ through the first head unit 210b. In this way, measurement time difference information is generated.

Next, the control unit evaluates the measured time difference information based on the reference time difference information, generates abnormality determination information, which is information for determining an abnormal state of the body of the examination subject, and outputs the abnormality determination information through the output unit. .

Here, when the biological sound acquisition time (t ₃ ) in the second zone of the measurement time difference information is later than the biological sound acquisition time (t ₂ ) in the second zone of the reference time difference information, it is determined to be an abnormal state. When the biological sound acquisition time point (t ₃ ) in the second zone of the measurement time difference information is equal to or earlier than the biological sound acquisition time point (t ₂ ) in the second zone of the reference time difference information, it is determined that the normal state is established and the output unit is output through

As described above, by obtaining time difference information, it is possible to provide an effect of additionally obtaining information on a blood vessel state interconnecting organs of a subject to be examined based on the time difference information.

As described above, the present invention has been described with reference to the embodiments shown in the drawings, but this is only for explaining the present invention, and those skilled in the art to which the present invention belongs may make various modifications or equivalents from the detailed description of the present invention. It will be appreciated that one embodiment is possible.

Therefore, the true scope of the present invention should be determined by the technical spirit of the claims.

1000: smart diagnostic device
100: body part
200: head part
210: head unit
210a: first head unit
210b: second head unit
210: head unit
211: unit body
212: contact
213: heating module
220: sensing module
221: biological sound sensor
222: noise sensor
223: complex information collection sensor
300: control unit
400: output unit
500: Ministry of Communication

Claims (10)

body portion 100;
a head unit 200 coupled to the main body unit and configured to obtain diagnostic information indicating a physical condition of a subject;
a control unit 300 generating abnormality determination information, which is information for determining whether there is an abnormality in the physical state of the examination subject based on the diagnosis information;
at least one output unit 400 connected to the control unit to receive and output any one or more pieces of information selected from among the diagnosis information and the abnormality determination information; and
A communication unit 500 for performing a wired/wireless communication connection between the control unit and the output unit; includes,
The head part 200,
at least one or more head units 210 provided to be in contact with at least one or more zones formed in different body parts among body parts of the examination subject; and at least one sensing module 220 capable of measuring a signal including any one or more elements selected from among sound, vibration, current, temperature, and motion.
The head unit 210,
a first head unit (210a) that acquires biological sounds in a first zone; and
a second head unit (210b) that obtains biological sounds in a second area formed at a location spaced apart from the first area by a predetermined distance after the point in time at which the biological sound is acquired through the first head unit;
The controller 300,
generating measurement time difference information, which is information indicating a time interval between a biological sound acquisition time in the first head unit and a biological sound acquisition time in the second head unit;
While collecting standard time difference information, which is information indicating the standard for determining whether or not there is an abnormality in the physical condition of the checkup subject,
A smart diagnosis device with improved examination reliability, characterized in that the measured time difference information and the reference time difference information are mutually compared and abnormality determination information is generated, which is information for determining an abnormal state of the body of the examination subject. According to claim 1,
The sensing module,
a biological sound sensor 221 provided to detect a biological sound signal; and
A noise sensor 222 provided to detect a noise signal including a frictional sound generated when the head unit is operated;
The control unit,
Receives the biological sound signal and the noise signal, generates a noise canceling signal that cancels the noise signal, filters the biological sound signal based on the noise canceling signal, and provides the filtered biological sound signal to an output unit. Enhanced smart diagnostic device. According to claim 2,
The sensing module,
A complex information collection sensor 223 that collects complex information including at least one selected from heart rate, electrocardiogram, body temperature, oxygen saturation, blood pressure, blood sugar, and ultrasound information; characterized by further comprising a A smart diagnostic device with improved reliability of examination. delete According to claim 1,
The first head unit 210a,
While being integrally coupled with the main body, it is provided to be detachable and obtains the diagnostic information in an arbitrarily selected first zone,
The second head unit 210b,
The smart diagnosis device with improved examination reliability, characterized in that the diagnostic information is obtained in a second area formed independently of the main body and formed at a location spaced apart from the first area by a predetermined distance. delete delete According to claim 1,
The head unit 210,
head unit body 211;
a contact portion 212 coupled to the head unit body and formed to be in contact with a body of a subject; and
A smart diagnosis device with improved examination reliability, characterized in that it includes a heating module 213 provided in the head unit body and provided to emit a predetermined amount of heat toward the contact portion. According to claim 8,
The contact part 212,
A smart diagnosis device with improved examination reliability, characterized in that the cross section is formed to have a predetermined curvature. According to claim 8,
The contact part 212,
A smart diagnosis device with improved examination reliability, characterized in that it is made of a material having elastic restoring force that can be deformed by external force.

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