KR20220098419A - Biometric data sensing apparatus - Google Patents

Abstract

The present invention relates to a biometric information detection device, and more particularly, to a biometric information detection device which detects body information of a user together with components included in the breathing of a user. According to an embodiment of the present invention, the biometric information detection device includes: an inhaling unit for inhaling the breathing gas from a user; a main body having a plurality of accommodating spaces isolated from each other by partition walls to accommodate the breathing gas; and a component detection unit provided in each of the plurality of accommodating spaces and detecting a component included in the breathing gas of the corresponding accommodating space.

Description

Biometric data sensing apparatus

The present invention relates to a biometric information sensing device, and more particularly, to a biometric information sensing device for detecting a user's body information together with a component included in the user's respiration.

As computing technology advances, there is an increasing demand for services that can monitor and manage biometric information in real time anytime, anywhere. Accordingly, studies on biometric information transmission such as remote blood sugar management, blood pressure management, and electrocardiograph (ECG) are being actively conducted.

On the other hand, existing sensor-based systems tended to depend on the performance of the sensor. For example, a device equipped with a sensor is used to check a user's health condition. When the sensor performance is high, a high reliability checkup result is calculated, but when the sensor performance is low, a low reliability checkup result is calculated.

In particular, depending on the type of the sensor, it may not be easy to perform a checkup on the user. For example, if a device equipped with a sensor for analyzing components in blood is used, repeated examination may not be performed.

Accordingly, there is a need for an invention that calculates a high-reliability checkup result without relying on the performance of a sensor and enables a simple checkup.

Republic of Korea Patent Publication No. 10-1565064 (2015.11.02)

An object of the present invention is to provide a biometric information sensing device for detecting the user's body information together with the components included in the user's respiration.

The problems of the present invention are not limited to the problems mentioned above, and other problems not mentioned will be clearly understood by those skilled in the art from the following description.

A biometric information sensing device according to an embodiment of the present invention includes a suction unit for sucking breathing gas from a user, a main body having a plurality of accommodating spaces isolated from each other by a partition wall, and accommodating the breathing gas, and the plurality of accommodation It is provided in each space, and includes a component detection unit for detecting a component contained in the breathing gas of the corresponding accommodation space.

The suction unit is opened when the pressure acting from the outside to the inside is greater than or equal to a predetermined level, and is closed when the pressure is less than the predetermined level.

The component detected by the component detecting unit includes volatile organic compounds (VOCs).

The biometric information sensing device further includes a movable plate that moves in each of the plurality of accommodation spaces to expand or contract the space occupied by the breathing gas, and an elastic part that provides an elastic force to the movable plate.

The biometric information sensing device further includes a position sensing unit for detecting a position of the movable plate, and the component sensing unit operates when the movable plate moves to a preset position.

The biometric information detection device further includes a control device for transmitting a detection result by the component detection unit.

The biometric information sensing device further includes a control device for diagnosing the health state of the user with reference to the detection result by the component detecting unit.

The control device calculates individual results for each detection result of each component detection unit provided in the plurality of accommodation spaces, and synthesizes the individual results to diagnose the health condition of the user.

The biometric information sensing device further includes an output unit for outputting the individual results.

The plurality of accommodating spaces is provided in two or an odd number.

The biometric information sensing device further includes a detachable case that is inserted into the main body or detachable from the main body, and the component sensing units for each of the plurality of accommodation spaces are provided in the detachable case.

The details of other embodiments are included in the detailed description and drawings.

According to the biometric information sensing device according to the embodiment of the present invention as described above, there is an advantage of enabling a simple health diagnosis because the user's body information is sensed together with the components included in the user's respiration.

1 is a diagram illustrating a health diagnosis system according to an embodiment of the present invention.
2 to 4 are diagrams for explaining the operation of the health diagnosis system.
5 is a diagram illustrating biometric information.
6 is a diagram illustrating diagnosis request data.
7 is a block diagram of a health diagnosis server.
8 and 9 are diagrams for explaining a billing calculation method.
10 is an exemplary diagram of a diagnosis result.
11 is a diagram illustrating an apparatus for detecting biometric information.
12 and 13 are diagrams for explaining the operation of the suction port.
14 and 15 are views for explaining the operation of the movable plate.
16 is a diagram for explaining that a detection result is transmitted.
17 is a view for explaining that the breathing gas accommodated in the interior of the main body is discharged.
18 is a view for explaining that the inside of the main body is sterilized.
19 is a diagram illustrating a biometric information sensing device having a detachable case.
20 is a view for explaining the operation of the detachable case.
21 is a view for explaining the installation of different detachable cases.
22 is a diagram illustrating an apparatus for detecting biometric information according to another embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Advantages and features of the present invention, and a method 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 published below, but may be implemented in various different forms, and only these embodiments allow the publication of the present invention to be complete, and common knowledge in the technical field to which the present invention pertains. It is provided to fully inform the possessor of the scope of the invention, and the present invention is only defined by the scope of the claims. Like reference numerals refer to like elements throughout.

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 clearly defined in particular.

1 is a diagram showing a health diagnosis system according to an embodiment of the present invention, FIGS. 2 to 4 are diagrams for explaining the operation of the health diagnosis system, FIG. 5 is a diagram showing biometric information, and FIG. 6 is a diagnosis It is a diagram showing request data.

Referring to FIG. 1 , a health diagnosis system 10 according to an embodiment of the present invention includes a biometric information sensing device 100 , a user terminal 200 , and a health diagnosis server 300 .

The biometric information sensing apparatus 100 serves to detect the user's biometric information. In particular, in the present invention, the biometric information sensing device 100 may detect biometric information including the user's breathing gas component. The user injects his or her breathing gas into the biometric information sensing device 100 , and the biometric information sensing device 100 may detect a component included in the injected breathing gas.

Referring to FIG. 2 , the user terminal 200 may transmit diagnosis request data including biometric information.

A communication channel may be formed between the biometric information sensing device 100 and the user terminal 200 . For example, the biometric information sensing device 100 and the user terminal 200 may transmit and receive biometric information through wired or wireless communication. In this case, when the biometric information sensing apparatus 100 is connected to the user terminal 200 by wire, the biometric information sensing apparatus 100 may be connected to the user terminal 200 to receive power.

In the present invention, the user terminal 200 may be a portable terminal such as a mobile phone, a smart phone, and a laptop, or a fixed terminal such as a personal computer (PC). Hereinafter, it will be mainly described that the user terminal 200 is a portable terminal.

Referring to FIG. 3 , when receiving biometric information from the biometric information sensing device 100 , the user terminal 200 may transmit diagnosis request data including biometric information to the health diagnosis server 300 .

A dedicated application may be installed in the user terminal 200 for communication with the biometric information sensing device 100 and communication with the health diagnosis server 300 . As the dedicated application is executed, the user terminal 200 communicates with the biometric information sensing device 100 to receive biometric information, generate diagnosis request data including biometric information, and communicate with the health diagnosis server 300 to request a diagnosis data can be transmitted.

The health checkup server 300 is a device remotely located with respect to the user terminal 200 , and the user terminal 200 and the health checkup server 300 may communicate with each other through, for example, a broadband network.

Referring to FIG. 4 , the health diagnosis server 300 receiving the diagnosis request data may analyze the biometric information included in the diagnosis request data to diagnose the user's health condition and transmit the diagnosis result.

The user terminal 200 may receive a diagnosis result for the user's health condition in response to the diagnosis request data, and output the diagnosis result. Accordingly, the user can easily check his/her health condition through his/her breathing gas.

Referring to FIG. 5 , the biometric information may include a breathing gas component and diagnosis auxiliary information.

The breathing gas component may include volatile organic compounds (VOCs).

The diagnostic auxiliary information includes information that is considered together with the respiratory gas component in order to improve the reliability of the diagnostic result. Specifically, the diagnosis auxiliary information may include at least one of a user's body temperature, blood pressure, heart rate per minute, and oxygen saturation.

Respiratory gas component and diagnosis auxiliary information are included in the biometric information and transmitted to the health diagnosis server 300, and the health diagnosis server 300 can diagnose the user's health condition by referring to the diagnosis auxiliary information together with the breathing gas component. .

In the present invention, the biometric information sensing device 100 isolates the user's breathing gas in a plurality of different spaces, and may detect a component of the breathing gas for each space. The biometric information transmitted to the user terminal 200 may include detection results for a plurality of breathing gases for each space.

Referring to FIG. 6 , the diagnosis request data may include user data, biometric information, basic environment information, and billing information.

The user data may include body information of the user. For example, the user data may include at least one of the user's age, gender, weight, and height.

The user data may be stored in the user terminal 200 . For example, the user data may be stored in the user terminal 200 after being input by the user before the biometric information detection time by the biometric information sensing device 100 . When transmitting the diagnosis request data, the user terminal 200 may extract previously stored user data and include the extracted user data in the diagnosis request data to transmit the data.

On the other hand, if the user data is not stored in the user terminal 200, the user terminal 200 receives the user data from the user before transmitting the diagnosis request data, and includes the input user data in the diagnosis request data to transmit. may be

The base environment information may indicate a sensing environment of the biometric information sensing apparatus 100 that detects the biometric information. For example, the base environment information may include at least one of an internal temperature, internal humidity, external temperature, external humidity, and external brightness of the biometric information sensing device 100 . The analysis result of the biometric information may vary according to the sensing environment of the biometric information sensing device 100 for detecting the biometric information. The health diagnosis server 300 may analyze the biometric information with reference to the underlying environment information and calculate a diagnosis result.

The billing information represents information necessary for billing for the diagnosis result. For example, the billing information may include financial access information of the owner of the user terminal 200 or financial access information of the user. Here, the financial access information may include a credit card number or passbook number. The health diagnosis server 300 may charge the owner or the user of the user terminal 200 for calculating and transmitting the diagnosis result.

Hereinafter, the structure and function of the health diagnosis server 300 will be described in detail with reference to FIG. 7 .

7 is a block diagram of a health diagnosis apparatus, FIGS. 8 and 9 are diagrams for explaining a billing calculation method, and FIG. 10 is an exemplary diagram of a diagnosis result.

Referring to FIG. 7 , the health diagnosis server 300 includes a receiving unit 310 , a storage unit 320 , a control unit 330 , an analysis unit 340 , a billing unit 350 , and a transmitting unit 360 . .

The receiver 310 may receive the diagnosis request data from the user terminal 200 . To this end, the receiver 310 may be connected to a broadband network.

The storage unit 320 may extract user data, biometric information, and basic environment information from the diagnosis request data, and may store them. In particular, the storage unit 320 may extract user data, biometric information, and base environment information from the diagnosis request data received from different user terminals 200 , and store the extracted user data, biometric information, and basic environment information. In this case, the storage unit 320 may accumulate data received for each user. Also, the storage unit 320 may store the analysis result by the analysis unit 340 .

The analyzer 340 may diagnose the user's health state with reference to the biometric information. In this case, the analyzer 340 may refer to at least one of user data and basic environment information in diagnosing the user's health condition. For example, the analysis unit 340 may determine whether a user has a respiratory disease or a disease such as lung cancer with reference to the breathing gas component, and may refer to at least one of user data and base environment information in performing such determination. .

As described above, the biometric information included in the diagnosis request data may include detection results for a plurality of breathing gases for each space. The analysis unit 340 may individually analyze a plurality of breathing gases for each space, and calculate a diagnosis result by synthesizing the analyzed individual results.

The billing unit 350 serves to charge the owner or the user of the user terminal 200 . The diagnosis request data may include billing information. The billing unit 350 may charge the owner or the user of the user terminal 200 with reference to the billing information.

In the present invention, the charging method may include a one-time method and a periodic method. In the case of a one-time method, the charging unit 350 may charge each time the diagnosis request data is received. Meanwhile, in the case of the periodic method, the charging unit 350 may periodically charge regardless of the reception of the diagnosis request data. For example, the billing unit 350 may charge at intervals of a week or a month.

In addition, the billing unit 350 may charge differently for each situation. Referring to FIGS. 8 and 9 , the charging unit 350 may charge differentially according to the risk of the user's health condition or differentially charge according to a plurality of diagnosis results.

Depending on the analysis result of the analysis unit 340 , the risk level of the health state may be different for each user. A high cost may be charged for a user having a relatively high risk, and a low cost may be charged for a user having a relatively low risk.

Alternatively, the analyzer 340 may calculate a plurality of diagnosis results including different detailed information with reference to information included in the diagnosis request data. For example, the primary diagnosis result contains only schematic information, the secondary diagnosis result contains detailed information compared to the primary diagnosis result, and the tertiary diagnosis result contains detailed information compared to the secondary diagnosis result. Thus, a plurality of diagnostic results can be calculated in this way.

The charging unit 350 may preferentially charge for the primary diagnosis result, and may perform additional charging whenever a request for additional diagnosis result is received from the user terminal 200 . For example, the charging unit 350 may charge a higher cost as the order increases. The user can check the diagnosis result including different detailed information according to his/her selection.

Referring to FIG. 10 , the diagnosis result may include a degree of change in the user's health state.

A user may request a health examination a plurality of times by using the biometric information sensing device 100 . The diagnosis result calculated by analyzing the biometric information by the analysis unit 340 may include accumulated information for each health state.

10 illustrates a diagnosis result including the health state calculated at time t7, which is the current time point, along with the health state calculated at time points t1 to t6. Here, the health state calculated at each point in time may be a health state calculated for one piece of diagnosis request data, or may be a health state accumulated over a certain period of time. For example, the graphs for each of t1 to t7 are monthly graphs, which may be calculated based on biometric information accumulated during the month.

As illustrated, the diagnosis result may include a degree of change in the user's health state. For example, based on the diagnosis result, the risk of the user's health condition decreased by a during the elapsed time from t1 to t2, and the risk of the user's health condition decreased by b during the elapsed time from t2 to t3, and from t6 to t7 It can be seen that the risk of the user's health condition is reduced by f during the elapsed time.

The user can check the degree of change in his or her health state through the diagnosis result and perform self-management through this.

The transmitter 360 serves to transmit the diagnosis result to the user terminal. To this end, the transmitter 360 may be connected to a broadband network.

The controller 330 may perform overall control of the receiver 310 , the storage 320 , the analyzer 340 , the biller 350 , and the transmitter 360 .

11 is a diagram illustrating a biometric information sensing device, FIGS. 12 and 13 are diagrams for explaining the operation of the suction port, FIGS. 14 and 15 are diagrams for explaining the operation of the movable plate, and FIG. 16 is the detection result is a view for explaining that the transmission, Figure 17 is a view for explaining that the breathing gas contained in the interior of the main body is discharged, Figure 18 is a view for explaining that the interior of the main body is sterilized.

Referring to FIG. 11 , the biometric information sensing device 100 includes a suction unit 110 , a main body 120 , an operation switch 121 , an output unit 122 , a base environment sensing unit 130 , a heater 141a, 141b), sterilization units 142a, 142b, component sensing units 150a, 150b, movable plates 161a, 161b, elastic units 162a, 162b, position sensing units 163a, 163b, 164a, 164b, control It is configured to include a device 170 , an auxiliary body 180 , and a discharge unit 181 .

In the present invention, the suction unit 110, the operation switch 121, the output unit 122, the base environment sensing unit 130, the heaters 141a, 141b, and the sterilization unit 142a provided in the biometric information sensing device 100 in the present invention. , 142b), the component detection units 150a, 150b, the position detection units 163a, 163b, 164a, 164b), the control device 170 and the discharge unit 181 operate with the power supplied from the user terminal 200. can However, this is an example, and when a battery is provided in the biometric information sensing device 100 , the suction unit 110 , the operation switch 121 , the output unit 122 , the base environment sensing unit 130 , and the heaters 141a and 141b ), the sterilization units 142a and 142b, the component detection units 150a and 150b, the position detection units 163a, 163b, 164a, 164b, the control unit 170 and the discharge unit 181 with power supplied from the battery. can work

The operation switch 121 may receive a user command for injection of breathing gas. When a user command is input, the control device 170 may perform overall control for analyzing the components of the user's breathing gas. For example, the control device 170 includes the output unit 122 , the base environment detection unit 130 , the heaters 141a and 141b , the sterilization units 142a and 142b , the component detection units 150a and 150b , and the position detection. Operations of the units 163a, 163b, 164a, and 164b and the discharge unit 181 may be controlled.

The base environment sensor 130 may detect an internal temperature, internal pressure, external temperature, external pressure, and external brightness of the main body 120 . To this end, the base environment sensing unit 130 may include a temperature sensing unit, a pressure sensing unit, and a light sensing unit. The temperature sensing unit and the pressure sensing unit may be provided inside and outside the main body 120 , respectively, and the light sensing unit may be provided outside the main body 120 .

In the present invention, the base environment sensing unit 130 may be provided in the form of a MEMS (Micro-Electro Mechanical Systems) sensor, but the form of the base environment sensing unit 130 of the present invention is not limited to the MEMS sensor. .

The heaters 141a and 141b serve to heat the accommodation spaces Sa and Sb. When the internal temperature of the main accommodation spaces Sa and Sb is too low, correct component detection by the component detection units 150a and 150b may not be performed. The heaters 141a and 141b may heat the accommodation spaces Sa and Sb in order to maintain the accommodation spaces Sa and Sb at an appropriate temperature.

In addition, when the humidity of the accommodation spaces Sa and Sb is excessively high, the correct component detection by the component detection units 150a and 150b may not be performed. The heaters 141a and 141b may heat the accommodation spaces Sa and Sb in order to discharge the moisture contained in the accommodation spaces Sa and Sb.

When the temperature and humidity of the accommodation spaces (Sa, Sb) are included in a preset range, the control device 170 may operate the output unit 122 to output a respiration start alarm. The respiration start alarm indicates an alarm that is output when the preparation inside the main body 120 for receiving the user's breathing gas is completed.

The output unit 122 may output an alarm in at least one of a visual method and an auditory method. When outputting an alarm in a visual way, the output unit 122 is provided in the form of an LED (Light Emitting Diode), and when outputting an alarm in an auditory way, the output unit 122 is provided in the form of a speaker or a buzzer. can

The user may check that the breathing start alarm is output, and may inject breathing gas through the inhaler 110 .

The inhaler 110 may inhale the breathing gas from the user. For example, the user may insert the suction unit 110 into the suction unit 110 by putting the inhaler 110 in the mouth and exhaling the exhalation.

12 and 13 , the suction unit 110 may be opened when the pressure acting from the outside to the inside is greater than or equal to a predetermined level, and may be closed when the pressure is less than the predetermined level.

When the pressure acting from the outside to the inside of the biometric information sensing device 100 is equal to or greater than a certain level, the suction unit 110 may be opened as shown in FIG. 12 . Meanwhile, when the pressure acting from the outside to the inside of the biometric information sensing device 100 is less than a certain level, the suction unit 110 may be closed as shown in FIG. 13 . 12 and 13 show that the opening and closing of the suction unit 110 is implemented by changing the posture of the separation membrane 111, but this is exemplary and the opening and closing of the suction unit 110 of the present invention may be implemented in various ways. can For example, a check valve may be provided in the suction unit 110 to implement opening and closing of the suction unit 110 .

The user may fill the main body 120 with his or her own breathing gas by inhaling external air and discharging the breathing gas to the suction unit 110 . At this time, the user may repeat the inhalation of the external air and the discharge of the breathing gas several times. Since the suction unit 110 is automatically closed when no pressure is applied to the suction unit 110 when the external air is sucked, the breathing gas accommodated in the main body 120 may be maintained as it is.

Referring to FIG. 14 , the main body 120 may receive the breathing gas injected through the suction unit 110 .

The breathing gas injected through the suction unit 110 may move to the main body 120 and be accommodated. The main body 120 may be provided with a plurality of accommodating spaces (Sa, Sb) isolated from each other by the partition wall 123 to accommodate the breathing gas. 14 shows the main body 120 including two accommodating spaces Sa and Sb, but the number of accommodating spaces provided in the main body 120 according to the embodiment of the present invention is limited to two. not. Hereinafter, the main body 120 including two accommodating spaces Sa and Sb will be mainly described. In addition, one of the two accommodating spaces Sa and Sb is referred to as a first accommodating space Sa, and the other is referred to as a second accommodating space Sb.

Each of the receiving spaces Sa and Sb of the main body 120 may include movable plates 161a and 161b and elastic parts 162a and 162b. The movable plate (161a, 161b) may move in each of the plurality of accommodation spaces (Sa, Sb) to expand or contract the space occupied by the breathing gas. The elastic parts 162a and 162b may provide elastic force to the movable plates 161a and 161b.

The movable plates 161a and 161b may be positioned at specific points of the main body 120 by the elastic parts 162a and 162b. On the other hand, when the breathing gas is injected, the movable plates 161a and 161b may be moved by the pressure of the breathing gas. That is, when the pressure of the breathing gas is greater than the elastic force of the elastic parts 162a and 162b, the movable plates 161a and 161b move to expand the space occupied by the breathing gas.

Position sensing units 163a , 163b , 164a , 164b for sensing the positions of the movable plates 161a and 161b may be provided in each of the receiving spaces Sa and Sb of the main body 120 . The position detection units 163a , 163b , 164a , and 164b serve to detect whether the movable plates 161a and 161b are located at a specific point of the main body 120 . For example, the position detecting units 163a , 163b , 164a , and 164b may detect whether the movable plates 161a and 161b have moved to the inner side of one side of the main body 120 . Hereinafter, a specific point of the movable plate (161a, 161b) with respect to the main body 120 is referred to as an operation start point. In the present invention, the operation starting point is the position of the movable plates (161a, 161b) indicating that the amount of breathing gas accommodated in the main body 120 is sufficient to indicate that the detection operation preparation by the component detection units (150a, 150b) is completed. can be

The position sensing units 163a, 163b, 164a, and 164b may include first position sensing units 163a and 163b and second position sensing units 164a and 164b. The first position sensing units 163a and 163b may be provided on the movable plates 161a and 161b , and the second position sensing units 164a and 164b may be provided on the inner surface of the main body 120 . When the first position detection unit (163a, 163b) and the second position detection unit (164a, 164b) are in contact with each other or are included within a preset distance, the control device 170 causes the movable plate (161a, 161b) to operate. It can be judged that it is located at the point.

Referring to FIG. 15 , when the amount of breathing gas injected into the main body 120 is sufficiently increased, the movable plates 161a and 161b are moved to move the first position sensing units 163a and 163b and the second position sensing unit 164a. , 164b) may be close.

As the first position detection units 163a and 163b and the second position detection units 164a and 164b approach each other, the control device 170 may determine that the movable plates 161a and 161b are positioned at the operation starting point. have.

The output unit 122 may output a preparation completion alarm when detection is prepared by the component detection units 150a and 150b. At this time, the output unit 122 may output a preparation completion alarm when the preparation for detection by all of the plurality of component detection units 150a and 150b is completed. The user may confirm that the detection by the component detection units 150a and 150b has been completed through the ready alarm, and stop the injection of the breathing gas.

Referring back to FIG. 11 , the component detection units 150a and 150b are provided in the plurality of accommodation spaces Sa and Sb, respectively, and can detect components included in the breathing gas of the corresponding accommodation spaces Sa and Sb. have.

In the present invention, the component detected by the component detecting unit 150a, 150b may include volatile organic compounds (VOC), but the component detected by the component detecting unit 150a, 150b of the present invention is It is not limited to a volatile organic compound.

The control device 170 may operate the component detection units 150a and 150b when the movable plates 161a and 161b move to a preset position, that is, an operation start point. The component detection units 150a and 150b may operate under the control of the control device 170 when the movable plates 161a and 161b move to the operation starting point. The detection result of the component detection units 150a and 150b is transmitted to the control device 170 , and the control device 170 may transmit the detection result by the component detection units 150a and 150b to the user terminal 200 . . At this time, the control device 170 controls at least one of the internal temperature, internal humidity, external temperature, external humidity, and external brightness sensed by the base environment sensing unit 130 together with the detection result of the component sensing units 150a and 150b. The included base environment information may be transmitted to the user terminal 200 .

Also, the control device 170 may transmit diagnostic auxiliary information including at least one of the user's body temperature, blood pressure, heart rate per minute, and oxygen saturation to the user terminal 200 . In order to detect the diagnostic auxiliary information, a separate sensing means (not shown) may be provided in the biometric information sensing apparatus 100 .

In addition, the control device 170 includes the component detection units 150a and 150b, the base environment detection unit 130 , the heaters 141a and 141b , the sterilization units 142a and 142b , the discharge unit 181 , and the output unit 122 . ) can be controlled overall.

Referring to FIG. 16 , when the component detection by the component detection units 150a and 150b is completed, the control device 170 may transmit the detection result.

When component detection by the component detection units 150a and 150b is completed, the component detection units 150a and 150b may transmit the detection result to the control device 170 . The control device 170 may transmit the detection result transmitted from the component detection units 150a and 150b to the user terminal 200 .

Referring to FIG. 17 , the discharge unit 181 serves to discharge the breathing gas accommodated in the main body 120 to the outside.

For example, the discharge unit 181 may be provided in the form of a fan for pressurizing gas. Gas including the breathing gas accommodated in the main body 120 by the operation of the discharge unit 181 may be discharged to the outside of the main body (120).

As the breathing gas is discharged from the main body 120 by the discharge unit 181 , the internal pressure of the main body 120 may be reduced. Accordingly, the movable plates 161a and 161b may return to their original positions.

17 illustrates that the discharge unit 181 is provided in the auxiliary body 180 , this is exemplary, and according to some embodiments of the present invention, the discharge unit 181 may be provided in the main body 120 . have.

The auxiliary body 180 may be connected to the suction unit 110 and the main body 120 to guide the breathing gas injected into the suction unit 110 to the main body 120 .

Referring to FIG. 18 , the sterilization units 142a and 142b may sterilize the accommodation spaces Sa and Sb.

For example, the sterilizers 142a and 142b may sterilize the accommodation spaces Sa and Sb by irradiating a short-wavelength ultraviolet (UVC) ultraviolet (UVC). When the component detection by the component detection units 150a and 150b is completed, the sterilization units 142a and 142b may operate to sterilize the accommodation spaces Sa and Sb.

Although it has been described above that the health condition of the user is determined by the health diagnosis server 300, according to some embodiments of the present invention, the control device 170 refers to the detection result by the component detection units 150a and 150b. Thus, it is possible to diagnose the user's health condition. For example, the control device 170 may refer to at least one of user data and base environment information to determine whether a user has a respiratory disease or a disease such as lung cancer with reference to a breathing gas component, and to perform such determination. . The user data may be provided from the user terminal 200 .

The control device 170 may calculate individual results for each detection result of each component detection unit 150a and 150b provided in the plurality of accommodation spaces Sa and Sb, and synthesize the individual results to diagnose the user's health condition. have. For example, the individual results according to the detection results of the component detection units 150a and 150b provided in the first accommodation space Sa include a diagnosis that the user has a disease, and are provided in the second accommodation space Sb. The individual results according to the detection results of the component detection units 150a and 150b may include a diagnosis in which the user determines that it is normal. The control device 170 may calculate a diagnosis result by simply listing the presence of both disease diagnosis and normal diagnosis, and may also calculate a diagnosis result based on the dominant diagnosis by determining the possibility for each diagnosis.

The diagnosis result of the control device 170 may be output through the output unit 122 . Specifically, the output unit 122 may output individual results. For example, the individual results according to the detection results of the component detection units 150a and 150b provided in the first accommodation space Sa include a diagnosis that the user has a disease, and are provided in the second accommodation space Sb. When the individual results according to the detection results of the component detection units 150a and 150b include a diagnosis that the user determines to be normal, the output unit 122 may output both a disease diagnosis and a normal diagnosis.

The user may predict his or her health state by referring to individual results output through the output unit 122 . For example, if two individual results are both a diagnosis of a disease, the user may determine that he or she has a very high probability of having a disease, and if both individual results are a normal diagnosis, the user may determine that he or she is highly likely to be normal. have. Meanwhile, when one of the two individual results includes a disease diagnosis and the other includes a normal diagnosis, an additional examination may be performed or a specialized examination may be performed by visiting a specialized medical institution.

19 is a view showing a biometric information sensing device having a detachable case, FIG. 20 is a view for explaining the operation of the detachable case, and FIG. 21 is a view for explaining installation of a different detachable case.

19 to 21 , the biometric information sensing device 101 according to an embodiment of the present invention may further include a detachable case 190 .

The detachable case 190 may be inserted into the main body 120 or separated from the main body 120 . The component sensing units 150a and 150b for each of the plurality of accommodation spaces Sa and Sb may be provided in the detachable case 190 . That is, the detachable case 190 having the component detection units 150a and 150b may be inserted into the main body 120 or separated from the main body 120 .

Referring to FIG. 21 , different detachable cases 191 and 192 having different component detection units 151a, 151b, 152a, 152b are separated from the main body 120 or inserted into the main body 120 . can be Different component detection units (151a, 151b, 152a, 152b) may be to detect different components in the breathing gas. As the component detection units (151a, 151b, 152a, 152b) specialized for the detection of a specific component are alternately mounted on the main body 120 and operated, more detailed component detection of the breathing gas may be performed. Here, the component detection units 151a and 151b provided in the first removable case 191 detect the same component, and the component detection units 152a and 152b provided in the second removable case 192 are identical to each other. , and the component detection units 151a and 151b provided in the first removable case 191 and the component detection units 152a and 152b provided in the second removable case 192 may detect different components from each other. have.

22 is a diagram illustrating an apparatus for detecting biometric information according to another embodiment of the present invention.

Referring to FIG. 22 , the biometric information sensing device 102 includes a suction unit 110 , a main body 120 , an operation switch 121 , an output unit 122 , a base environment sensing unit 130 , a heater 141c, 141d, 141e), sterilizing parts 142c, 142d, 142e, component detecting parts 150c, 150d, 150e, movable plates 161c, 161d, 161e, elastic parts 162c, 162d, 162e), position detecting part ( 163c, 163d, 163e, 164c, 164d, and 164e), a control device 170 , an auxiliary body 180 and a discharge unit 181 are configured.

The biometric information sensing apparatus 102 according to another embodiment of the present invention may include an odd number of accommodation spaces Sc, Sd, and Se. The odd number of accommodation spaces Sc, Sd, and Se may be separated from each other by the partition wall 123 .

Heaters 141c, 141d, 141e, sterilizers 142c, 142d, 142e, component detection units 150c, 150d, 150e, movable plates 161c, 161d, and 161e for each of the odd-numbered accommodation spaces Sc, Sd, and Se ), elastic parts 162c, 162d, and 162e, and position sensing parts 163c, 163d, 163e, 164c, 164d, and 164e may be provided.

The control device 170 may transmit or analyze the result detected by the component detection units 150c, 150d, and 150e to the user terminal 200 to calculate a diagnosis result. The calculated result may be output through the output unit 122 .

Individual results may be calculated according to the sensing results of the respective component sensing units 150c, 150d, and 150e provided in the odd number of accommodation spaces Sc, Sd, and Se. The individual outcomes may all contain the same diagnosis, and may contain some different diagnoses. For example, all of the individual outcomes may include a diagnosis of a disease, or all of the individual outcomes may include a normal diagnosis, some outcomes may include a diagnosis of disease, and some other outcomes may include a normal diagnosis.

On the other hand, when the number of individual outcomes is an odd number, there may be a dominant diagnosis. For example, two individual outcomes of three individual outcomes may include a diagnosis of disease and one individual outcome may include a normal diagnosis. In this case, the user may determine that he or she has a high probability of having a disease.

Although embodiments of the present invention have been described with reference to the above and the accompanying drawings, those of ordinary skill in the art to which the present invention pertains can practice the present invention in other specific forms without changing its technical spirit or essential features. You will understand that there is Therefore, it should be understood that the embodiments described above are illustrative in all respects and not restrictive.

10: Health check-up system
100, 101, 102: biometric information sensing device
110: suction unit
120: main body
121: action switch
122: alarm unit
130: base environment detection unit
141a, 141b, 141c, 141d, 141e: heater
142a, 142b, 142c, 142d, 142e: sterilization unit
150a, 150b, 150c, 150d, 150e, 151a, 151b, 152a, 152b: component detection unit
161a, 161b, 161c, 161d, 161e: movable plate
162a, 162b, 162c, 162d, 162e: elastic part
163a~163e 164a~164e: position detection unit
170: control device
180: auxiliary body
181: discharge unit
190, 191, 192: removable case
200: user terminal
300: health check server
310: receiver
320: storage
330: control unit
340: analysis unit
350: billing unit
360: transmitter

Claims (11)

an inhaler for inhaling breathing gas from the user;
a main body having a plurality of accommodating spaces isolated from each other by a partition wall and accommodating the breathing gas; and
A biometric information sensing device provided in each of the plurality of accommodating spaces, and including a component detecting unit configured to detect a component included in the breathing gas of the corresponding accommodating space. The method of claim 1,
The suction unit is opened when the pressure acting from the outside to the inside is greater than or equal to a predetermined level, and is closed when the pressure is less than the predetermined level. The method of claim 1,
The component detected by the component detecting unit includes a volatile organic compound (VOC). The method of claim 1,
a movable plate moving in each of the plurality of accommodation spaces to expand or contract the space occupied by the breathing gas; and
The biometric information sensing device further comprising an elastic part providing an elastic force to the movable plate. The method of claim 1,
Further comprising a position sensing unit for detecting the position of the movable plate,
The component detecting unit is a biometric information sensing device that operates when the movable plate moves to a preset position. The method of claim 1,
The biometric information detection device further comprising a control device for transmitting the detection result by the component detection unit. The method of claim 1,
The biometric information sensing device further comprising a control device for diagnosing the health state of the user by referring to the detection result by the component detecting unit. 8. The method of claim 7,
The control device calculates individual results for each detection result of each component detection unit provided in the plurality of accommodation spaces, and synthesizes the individual results to diagnose the health condition of the user. 9. The method of claim 8,
The biometric information sensing device further comprising an output unit for outputting the individual results. The method of claim 1,
The biometric information sensing device is provided with two or an odd number of the plurality of accommodating spaces. The method of claim 1,
Further comprising a detachable case inserted into the main body or detachable from the main body,
The component detection unit for each of the plurality of accommodation spaces is a biometric information sensing device provided in the detachable case.

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