KR20160070924A - Apparatus and method for measuring using near field communication and biosensor using the same - Google Patents

Abstract

Disclosed are a measuring apparatus and a measuring method using a near field wireless communication and a biosensor using the same. The measuring apparatus using a near field wireless communication comprises: a collector for collecting materials; a sensor connector for fixing a sensor; a control unit which measures target materials to be measured by connecting the sensor connector; a near field wireless communication circuit which transmits data measured from the control unit to a mobile device; and a single housing accommodating the collector, the sensor connector, the control unit, and the near field wireless communication circuit.

Description

TECHNICAL FIELD [0001] The present invention relates to a measurement device using near field wireless communication, a method thereof, and a biosensor using the same. [0002]

The present invention relates to a measurement apparatus using near field wireless communication, a method thereof, and a biosensor using the same. And more particularly, to a measurement apparatus and method for transmitting and receiving data and power using short-range wireless communication.

In general, a diagnostic device for measuring a user's biometric information, etc. is stored in its own memory to manage the measured result or transmits the measured result to an external device such as a computer or a mobile device by using various communication methods. For example, a typical method is to connect a diagnostic device to an external device via a cable or USB. In recent years, technologies for transmitting data using portable wireless communication devices such as medical gateways, mobile phones, and tablets have appeared with a wireless communication module such as Bluetooth or Zigbee.

Korean Patent Registration No. 10-0979274 discloses a technique for transmitting biometric information through a USB and a Bluetooth communication interface. However, Bluetooth, which is a representative short-range wireless communication method, has a problem in that it is difficult and inconvenient for data transmission between Bluetooth devices because communication is required through pairing and connection processes.

SUMMARY OF THE INVENTION The present invention is directed to a measurement apparatus and method using short-range wireless communication capable of quickly and accurately measuring and analyzing data and power by transmitting and receiving data and power by short-range wireless communication, Sensor.

Disclosure of Invention Technical Problem [8] The present invention provides a biosensor that can perform blood collection and blood glucose measurement at the same time, and can improve the portability by using short range wireless communication.

According to an aspect of the present invention, there is provided a measurement apparatus using near field wireless communication proposed by the present invention, comprising: a sampler configured to collect a substance; A sensor connector to which the sensor is fixed; A controller connected to the sensor connector to measure the measurement target material; A short range wireless communication circuit for transmitting measurement data measured by the controller to a mobile device; And a single housing for receiving the sampler, the sensor connector, the controller, and the short-range wireless communication circuit.

The sensor may further include a collecting unit at one end of the housing, and the sensor may be configured at the other end of the housing.

A sensor for sensing a substance to be measured from the substance; A space in which a plurality of the sensors are stacked in the housing; And a control unit for controlling mechanical or electrical forces such that at least one of the plurality of sensors stacked in the space can move to the sensor connector.

And a short range wireless communication antenna capable of transmitting and receiving the measurement data and power with the mobile device.

In response to the sensor being fixed to the sensor connector, the short-range wireless communication antenna may be connected to the mobile device to receive the power, and power may be applied to the sensor through the sensor connector.

The short-range wireless communication antenna may display the measurement data in connection with the application of the mobile device.

The control unit may convert the measurement data from an analog signal to a digital signal.

According to another aspect of the present invention, there is provided a biosensor using near field wireless communication proposed by the present invention, comprising: a sampler for loading or unloading by a mechanical or electric force; A sensor for detecting blood glucose from blood collected by the sampler; A sensor connector to which the sensor is fixed; A controller connected to the electrodes included in the sensor and measuring the blood glucose; A short range wireless communication circuit for transmitting blood glucose measurement data measured by the controller to a mobile device; And a housing for receiving the sampler, the sensor, the sensor connector, the controller, and the short-range wireless communication circuit.

The collector is formed at one end of the housing, and the sensor and the sensor connector are formed at the other end of the housing. Blood is collected using the collector, and blood glucose can be measured using the sensor.

A space in which a plurality of sensors are stacked in the housing; And a control unit for controlling the mechanical or electrical force so that at least one of the plurality of sensors stacked in the space can move to the sensor connector.

Further comprising a short range wireless communication antenna capable of transmitting and receiving the blood glucose measurement data and power with the mobile device, wherein the short range wireless communication antenna is connected to the mobile device by the short range wireless communication antenna in response to the sensor being fixed to the sensor connector, Power can be received, and power can be applied to the sensor through the sensor connector.

The control unit may convert the measurement data from an analog signal to a digital signal.

The short-range wireless communication circuit may display the measured blood glucose measurement data in connection with an application of the mobile device through a short-range wireless communication antenna.

According to another aspect of the present invention, there is provided a measuring method using a short range wireless communication method, the method comprising: loading a sampler by mechanical or electrical force; Sensing a substance to be measured from the material collected by the collector using a sensor; And transmitting measurement data on the sensed measurement object to a mobile device, wherein the measurement device comprises: a sensor connector to which the sensor is fixed; A controller connected to the electrodes included in the sensor to measure the measurement target material; A short range wireless communication circuit for transmitting the measurement data to the mobile device by the controller; And a housing for receiving the sampler, the sensor, the sensor connector, the controller, and the short-range wireless communication circuit.

Wherein the sensing of the measurement target material from the material collected by the collector using the sensor comprises: fixing the sensor to the sensor connector; In response to the sensor being secured to the sensor connector, receiving the power in connection with the mobile device by a short range wireless communication antenna; And sensing the measurement object by applying power to the sensor through the sensor connector, wherein the short-range wireless communication antenna is capable of transmitting and receiving data and power with the mobile device.

Wherein the step of securing the sensor to the sensor connector comprises stacking a plurality of sensors in an internal space of the housing; And moving the at least one of the plurality of sensors stacked in the space to the sensor connector by applying the mechanical or electrical force to the control unit.

In the step of transmitting measurement data on the sensed measurement object to the mobile device, the control unit may convert the measurement data from an analog signal to a digital signal and transmit the measurement data to the mobile device by the short-range wireless communication circuit.

The step of transmitting the measurement data of the sensed measurement object to the mobile device includes: transmitting the measurement data to the mobile device by connecting to the application of the mobile device through the short range wireless communication antenna; And correcting the measurement data and displaying the corrected measurement data through the application of the mobile device.

According to embodiments of the present invention, it is possible to provide a measurement device and a method thereof using short-range wireless communication, which can transmit and receive data and power by short-range wireless communication, .

According to embodiments of the present invention, it is possible to simultaneously perform blood collection and blood glucose measurement, and to provide a biosensor using near field wireless communication with improved portability.

1 is a diagram illustrating a measurement apparatus using near field wireless communication according to an embodiment of the present invention.
2 is a block diagram illustrating a system using near field wireless communication according to an embodiment of the present invention.
3 is a structural view illustrating a sampler and a sensor according to an embodiment of the present invention.
4 is a flowchart illustrating a measurement method using short-range wireless communication according to an embodiment of the present invention.
5 is a flowchart illustrating a method of supplying a sensor to a sensor connector according to an embodiment of the present invention.
6 is a flowchart illustrating a method of transmitting measurement data to a mobile device according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a diagram illustrating a measurement apparatus using near field wireless communication according to an embodiment of the present invention.

Referring to FIG. 1, a measurement device using short-range wireless communication may include a sampler 111, a sensor 113, a controller, a short-range wireless communication circuit, a short-range wireless communication antenna, and a housing.

The sampler 111 is configured to collect the material and is configured at one end of the housing and can be controlled to be loaded or unloaded by a mechanical or electric force as the user uses the sampling unit 112 . Thus, the user can obtain the substance to be collected using the sampler 111.

For example, in the case of collecting blood using a biosensor, the collecting unit 111 is instantaneously protruded by a method of pressing one end of the housing having the collecting unit 111 to the collecting unit, It is possible to collect blood. At this time, the sampler 111 means a lancet, etc., and may be built in the housing of the biosensor and can be easily replaced by the user.

The sensor 113 is configured at the other end of the housing and can detect the measurement target material from the collected material by the collector 111 formed at one end of the housing. Therefore, a substance collected through the sampler 111 can be input to the sensor 113, and a measurement target substance required for analysis among the collected substances can be detected by an electrode formed by a method such as printing on the sensor 113 .

For example, when the blood is measured by the biosensor, blood glucose can be measured by analyzing the blood by the electrode of the sensor 113. Accordingly, the blood sampled by the sampler 111 can be input to the sensor 113, and components necessary for blood analysis can be detected by the electrode printed on the sensor 113.

The sensor 113 can be seated on the sensor connector 115. Therefore, the sensor connector 115 can fix the sensor 113 supplied by the control unit 114. [ Here, the sensor 113 is stacked in the internal space of the housing and can supply the sensor 113 stored in the space to the sensor connector 115 by the control unit 114. It is also possible to insert the sensor 113 from the outside into the sensor connector 115. More specific details of this will be described below.

The controller may be connected to an electrode included in the sensor 113 to measure a measurement target material. Then, the control unit can convert the measured measurement data from the analog signal to the digital signal.

For example, in the case of a biosensor, the control unit may be connected to an electrode included in the sensor 113 to analyze blood to measure blood glucose, and convert the measured blood glucose measurement data from an analog signal to a digital signal.

The short range wireless communication (NFC) circuit can transmit the measurement data measured by the control unit to the mobile device 120, so that the measurement result can be easily confirmed even in a measurement device having no display device.

For example, in the case of a biosensor, the short-range wireless communication (NFC) circuit may transmit the blood glucose measurement data measured by the controller to the mobile device 120. By transmitting and displaying the blood glucose measurement data in the mobile device 120 as described above, it is possible to easily check the blood glucose measurement result even in the biosensor not provided with the display device, Can be analyzed quickly.

Here, the mobile device 120 may be a smart phone, a PDA, a tablet computer, etc., preferably having an NFC / RFID function.

The NFC antenna is capable of transmitting and receiving data and power to and from the mobile device 120 and allows the mobile device 120 and the mobile device 120 to receive power from the mobile device 120, .

Meanwhile, Near Field Communication (NFC) is a non-contact type short-range wireless communication module using 13.56Mhz frequency band as one of RFID tags, and transmits data between terminals at a distance of about 10cm.

Conventional RFID could only use information reading function in reader, but NFC can transmit data in both directions and enable NFC antennas so that mobile device itself acts as a reader. . For example, when smart devices equipped with a transportation card function are placed on a terminal installed on a bus, the smart phone gives the balance information to the terminal, and the terminal is the same principle as receiving information.

In addition, the short-range wireless communication (NFC) can encrypt the radio wave exchanged between the terminal and the reader, thereby preventing the outflow of the personal or payment information. In Bluetooth, separate sharing approval (pairing) is required to exchange information during the terminal period. However, short-range wireless communication (NFC) can be recognized within 0.1 second by a simple method of activating the antenna and accessing the terminal. This is advantageous. The control unit, the short-range wireless communication circuit, and the short-range wireless communication antenna will be described in detail below.

The housing may comprise a single housing that houses the collectors, sensors, controls and short-range wireless communication circuits.

2 is a block diagram illustrating a system using near field wireless communication according to an embodiment of the present invention.

Referring to FIG. 2, the measurement device 210 using short-range wireless communication may transmit and receive data and power with the mobile device 220. The measurement device 210 using the short range wireless communication may include a controller 211, a short range wireless communication (NFC) circuit 212, and a short range wireless communication (NFC) antenna 213. Here, the measuring device 210 using short-range wireless communication may be a biosensor capable of measuring blood glucose and the like, but the measurement object is not limited to biometric information such as blood sugar.

The controller 211 is connected to the electrodes included in the sensor to measure the measurement target material. Further, the control unit 211 may convert the measured measurement data from an analog signal to a digital signal.

The short range wireless communication (NFC) circuit 212 may convert the measurement data measured by the control unit 211 and transmit the measurement data to the mobile device 220.

The short range wireless communication antenna 213 can transmit and receive data and power to and from the mobile device 220 and can display the measurement data in connection with the application of the mobile device 220 so that the user can easily confirm the measurement data.

Accordingly, the user can approach the mobile device 220 with the device using the short-range wireless communication and can receive power from the mobile device 220 by connecting the mobile device 220 with the short-range wireless communication antenna, It is possible to operate even if it is not present.

For example, the biosensor may transmit blood glucose data measured by the mobile device 220 using short range wireless communication, and may receive power and data from the mobile device 220. As a result, the biosensor can acquire power without using a battery, can measure blood glucose, and can transmit measurement data and the like.

As described above, in one embodiment of the measurement apparatus, the biosensor for measuring blood glucose by collecting blood may include a sampler, a sensor, a sensor connector, a controller, a wireless communication circuit, and a housing.

The sampler can be loaded or unloaded by mechanical or electrical forces to collect blood. In addition, the collecting unit is instantaneously protruded by pressing the collecting unit in close contact with one end of the housing having the collecting unit formed at the collecting site, so that blood collection is possible.

The sensor can detect blood glucose from blood sampled by the sampler. That is, blood glucose can be measured by sensing the components required for blood analysis from the electrodes of the sensor.

The sensor connector can be fixed to the sensor, and when the sensor is fixed to the sensor connector, the voltage is applied, and the sensor can measure the blood sugar by sensing the components required for the analysis.

The controller may be connected to the electrodes included in the sensor to measure blood glucose, and the short range wireless communication circuit may transmit the blood glucose measurement data measured by the controller to the mobile device.

In addition, the housing can accommodate collectors, sensors, sensor connectors, controls, and short-range wireless communications circuits.

3 is a structural view illustrating a sampler and a sensor according to an embodiment of the present invention.

Referring to FIG. 3, the measurement apparatus 300 using short-range wireless communication may include a sampler 310 and a sensor 320.

The sampler 310 is configured at one end of the housing and can be controlled to be loaded or unloaded by a mechanical or electric force as the user uses the sampling unit. Preferably, the collector 310 is controlled by the collection unit to operate in the up and down direction to obtain the material to be collected.

For example, in the case of collecting blood using the biosensor, the collecting unit 310 instantaneously protrudes as the collecting unit is pressed, and blood can be collected. At this time, the sampler 310 may be built in the housing and may be easily replaced by the user as needed.

The sensor 320 may be fixed to the sensor connector formed at the other end of the housing. At this time, a space in which a plurality of sensors 320 are stacked is formed in the housing, and at least one of the plurality of sensors 320 stacked in the space is moved to the sensor connector, A mechanical or electrical force can be applied by using the spring 330. In other words, the user can move one of the plurality of sensors 320 stacked in the housing inner space through the control unit 330 to the sensor connector. Accordingly, the user can reduce the inconvenience of storing or holding the sensor 320 separately.

4 is a flowchart illustrating a measurement method using short-range wireless communication according to an embodiment of the present invention. Here, the measurement method is a method of measuring using the measurement device using the short-range wireless communication described above.

In step 410, the measuring device can load the sampler by mechanical or electrical force. Then, the user can load the sampler through the sampling unit. At this time, the collecting machine may be built in the inside of the housing, and can be easily replaced as needed.

For example, in the case of a biosensor for collecting blood, a user can collect blood by a method in which a collecting unit is instantaneously protruded by pressing a collecting unit formed in a housing of the biosensor.

In step 420, the measuring device may use a sensor to sense the analyte from the material collected by the sampler. Here, the sensors may be stored in the housing and supplied one by one to the sensor connector, or may be supplied by a method of inserting the sensor connector from the outside. It is also possible to confirm that the sensor is correctly inserted and supplied to the sensor connector by means of sound or the like.

In step 430, the measurement device may transmit measurement data for the sensed measurement object to the mobile device. At this time, it is also possible that the control unit converts the measurement data from an analog signal to a digital signal and transmits the digital signal to the mobile device by the short-range wireless communication circuit.

Then, the mobile device can be brought close to the measuring device to enable short-range wireless communication.

5 is a flowchart illustrating a method of detecting a measurement target using a sensor according to an embodiment of the present invention.

Referring to FIG. 5, a method of sensing a measurement target material from a material collected by a sampler using a sensor may include, in step 421, a measurement device that supplies a sensor to the sensor connector and fixes the sensor.

The method of securing the sensor to the sensor connector may then stack a plurality of sensors in the interior space of the housing at step 422 and at step 423 the user may mechanically or electrically It is possible to move at least one of the plurality of sensors stacked in the space to the sensor connector by applying a force to the sensor connector so that it is possible to reduce the inconvenience of storing or holding the sensor separately.

In step 424, in response to the sensor being secured to the sensor connector, power may be received from the mobile device via the short range wireless communication antenna.

Here, the short-range wireless communication antenna enables the measurement device to be placed close to a mobile device or a reader having an NFC function, so that data and power can be transmitted and received. At this time, the electromagnetic induction phenomenon occurs in the mobile communication device with the short-range wireless communication antenna, so that the power transmitted by the electromagnetic induction in the short-range wireless communication circuit is supplied and converted appropriately and the required voltage is generated. Operation can be performed. Therefore, the measuring device can be operated without a battery, and it can be used semi-permanently as long as there is no mechanical failure because it does not require a separate battery.

In step 425, the measuring device is powered by the sensor through the sensor connector to sense the substance to be measured. When the sensor is fixed to the sensor connector, power can be applied to the sensor through the sensor connector, and power is supplied to the electrode included in the sensor to enable measurement of the substance to be inspected. Here, it is preferable that the sensor is fixed to the sensor connector through an alarm such as a sound in the measuring device, a sound in a mobile device, or an alarm in a notification window.

6 is a flowchart illustrating a method of transmitting measurement data to a mobile device according to an embodiment of the present invention.

Referring to FIG. 6, a method of transmitting measurement data for a sensed measurement object to a mobile device may include, in step 431, connect measurement data to a mobile device by connecting to an application of the mobile device via a short- have.

In step 432, the pre-measured data may be corrected and displayed through the application of the mobile device.

In other words, the measuring device can connect the network with the NFC function-equipped mobile device through the short-range wireless communication (NFC) antenna. At this time, the short-range wireless communication does not need any setting for communication, and can be a very effective data transmission technique especially for the elderly who mainly use biometric information measuring devices such as blood glucose and blood pressure. That is, the measuring device is easy to use since the mobile device equipped with the NFC function can detect it when approaching.

In addition, the measurement device can convert the measured measurement data using the short-range wireless communication circuit and transmit the measurement data to the mobile device, and the transmitted measurement data can be displayed through an application of the mobile device through a process such as correction.

Moreover, the measurement data transmitted through the application of the mobile device can be compared with the stored reference information to warn the user. That is, when the measured result is out of the range of the normal range, the user can be notified by a warning sound or a warning phrase, and it is possible to warn the user step by step according to the degree of deviation from the reference value, and to suggest a coping method.

Therefore, the user can easily confirm the measurement result even in a measuring device not provided with a display device, and can perform quick and accurate analysis in conjunction with an application or the like.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. For example, it is to be understood that the techniques described may be performed in a different order than the described methods, and / or that components of the described systems, structures, devices, circuits, Lt; / RTI > or equivalents, even if it is replaced or replaced.

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

110, 210, 300: Measuring device
111, 310: collecting machine
112: Collection unit
113, 320: sensor
114, 330: control unit
115: Sensor connector
120, 220: Mobile device
211:
212: short-range wireless communication circuit
213: Short-range wireless communication antenna

Claims (18)

1. A measurement apparatus using near field communication, comprising:
An extractor configured to collect material;
A sensor connector to which the sensor is fixed;
A controller connected to the sensor connector to measure the measurement target material;
A short range wireless communication circuit for transmitting measurement data measured by the controller to a mobile device; And
A single housing for receiving said sampler, said sensor connector, said controller and said short-
And a measurement device using near field communication. The method according to claim 1,
Further comprising a sensor,
Wherein the collector is formed at one end of the housing and the sensor is configured at the other end of the housing
And a measuring device using near field wireless communication. The method according to claim 1,
A sensor for sensing a measurement target material from the material collected by the collector;
A space in which a plurality of the sensors are stacked in the housing; And
A control unit for controlling mechanical or electrical forces such that at least one of the plurality of sensors stacked in the space can be moved to the sensor connector
Wherein the wireless communication device further comprises: The method according to claim 1,
And a short range wireless communication antenna capable of transmitting and receiving the measurement data and power with the mobile device
Further comprising a short range radio communication device. The method of claim 3,
In response to the sensor being fixed to the sensor connector, receiving power from the mobile device via a short range wireless communication antenna and powering the sensor through the sensor connector
And a measuring device using near field wireless communication. 5. The method of claim 4,
The short-range wireless communication antenna
Connected to an application of the mobile device and receiving the measurement data, the measurement data being displayed to a user
And a measuring device using near field wireless communication. The method according to claim 1,
The control unit
Converting the measurement data from an analog signal to a digital signal
And a measuring device using near field wireless communication. 1. A biosensor using near field wireless communication,
A collector for loading or unloading by mechanical or electrical force;
A sensor for detecting blood glucose from blood collected by the sampler;
A sensor connector to which the sensor is fixed;
A controller connected to the electrodes included in the sensor and measuring the blood glucose;
A short range wireless communication circuit for transmitting blood glucose measurement data measured by the controller to a mobile device; And
A housing for receiving the sampler, the sensor, the sensor connector, the controller, and the short-
Wherein the biosensor is a biosensor. 9. The method of claim 8,
Wherein the collector is formed at one end of the housing, the sensor and the sensor connector are formed at the other end of the housing,
Blood sampling using the sampler, and measurement of blood glucose using the sensor
And a biosensor using near field wireless communication. 9. The method of claim 8,
A space in which a plurality of sensors are stacked in the housing; And
A control unit for controlling the mechanical or electrical force so that at least one of the plurality of sensors stacked in the space can be moved to the sensor connector
Wherein the biosensor further comprises a short-range wireless communication unit. 9. The method of claim 8,
And a short-distance wireless communication antenna capable of transmitting and receiving the blood glucose measurement data and power with the mobile device
Further comprising:
In response to the sensor being secured to the sensor connector, receiving power from the mobile device via the short range wireless communication antenna and powering the sensor through the sensor connector
And a biosensor using near field wireless communication. 9. The method of claim 8,
The control unit
Converting the measurement data from an analog signal to a digital signal
And a biosensor using near field wireless communication. 9. The method of claim 8,
The short-range wireless communication circuit
Displaying the blood glucose measurement data measured by connecting with an application of the mobile device through a short range wireless communication antenna
And a biosensor using near field wireless communication. A measurement method in a measurement apparatus using near field wireless communication,
Loading the sampler by mechanical or electrical force;
Sensing a substance to be measured from the material collected by the collector using a sensor; And
Transmitting measured data on the sensed measurement object to a mobile device
/ RTI >
The measuring device
A sensor connector to which the sensor is fixed; A controller connected to the electrodes included in the sensor to measure the measurement target material; A short range wireless communication circuit for transmitting the measurement data to the mobile device by the controller; And a housing for receiving the sampler, the sensor, the sensor connector, the controller, and the short-range wireless communication circuit. 15. The method of claim 14,
The step of sensing the measurement target material from the material collected by the sampler using the sensor
Fixing the sensor to the sensor connector;
Receiving power from the mobile device via a short range wireless communication antenna in response to the sensor being secured to the sensor connector; And
And sensing the measurement target material by applying power to the sensor through the sensor connector
/ RTI >
Wherein the short-range wireless communication antenna transmits and receives data and power with the mobile device
. 16. The method of claim 15,
The step of fixing the sensor to the sensor connector
Stacking a plurality of sensors in the interior space of the housing; And
Moving the at least one of the plurality of sensors stacked in the space to the sensor connector by applying the mechanical or electrical force to the control unit
Lt; / RTI > 15. The method of claim 14,
The step of transmitting measurement data of the sensed measurement object to the mobile device
Wherein the control unit converts the measurement data from an analog signal to a digital signal and transmits the digital signal to the mobile device by the short-range wireless communication circuit
. 15. The method of claim 14,
The step of transmitting measurement data of the sensed measurement object to the mobile device
Transmitting the measurement data to the mobile device by connecting to an application of the mobile device through a short-range wireless communication antenna; And
Correcting the measurement data and displaying the corrected measurement data through the application of the mobile device
Lt; / RTI >

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