KR20130020187A - Ear-plug type device for organism monitoring - Google Patents

Abstract

PURPOSE: An ear-plug type organism monitoring device is provided to efficiently manage the temperature of an organic body by inserting a temperature sensor embedded RFID into an ear. CONSTITUTION: An organic body monitoring device includes an RFID sensor tag and an ear-plug type appearance. The RFID sensor tag is mounted inside an outer tube. A temperature sensor(120) measures the temperature of an organic body in the ear. A microchip(130) modulates the identification information of the organic body and the temperature information measured by the temperature sensor to be transmitted to the outside. An antenna(150) outputs the modulated signal from the microchip. [Reference numerals] (130) Microchip; (140) Battery

Description

EAR-PLUG TYPE DEVICE FOR ORGANISM MONITORING}

The present invention relates to an apparatus for monitoring an organism in the form of earplugs.

Recently, livestock diseases such as foot-and-mouth disease caused millions of domestic cattle and pigs to be slaughtered, and there are concerns about permanent foot-and-mouth disease. The government's announced countermeasures for foot-and-mouth disease are insufficient for permitting large-scale livestock farms and for managing airport immigration. In order to solve this problem, there is a need for systematic management of livestock that can cause diseases and a method for detecting diseases in advance.

Cattle disease has a variety of symptoms, such as body temperature rise, blisters, a large amount of drooling, but symptoms except for the increase in body temperature can be confirmed with the naked eye, but there is a disadvantage that the disease is not detected in advance. In the case of foot-and-mouth disease, a rise in body temperature of more than 42 degrees is common in cows and pigs, so it is possible to determine whether foot-and-mouth disease is suspected by measuring temperature and biometric information periodically using an RFID chip that can measure body temperature.

The prior art is a bio-injectable RFID sensor tag technology is capable of wirelessly transmitting data by injecting a biosensor into an organism including a human. However, the bio-injectable RFID sensor has a disadvantage of causing inflammation or tumor occurrence and stability due to loss in the body.

Patents that can be measured externally, rather than in vivo, were developed to insert or attach to livestock sensitive areas to transmit monitoring and identification information about the state of the organism. However, it is difficult to insert or attach the existing sensor to livestock, and there is a risk of damage when protruding to the outside. In addition, there is a limit in managing a large number of livestock because it is configured to attach a temperature sensor in the form of an ear insert to the RFID reader, and read and read the RFID tag with the reader.

The present invention has been proposed in order to solve the above problems, through the ear plug-type temperature sensor built-in RFID device that can be inserted in the ear of the organism including a human, gently inserted into the ear of the human and the organism so as not to fall easily, An object of the present invention is to provide an organism monitoring apparatus that can identify identification information and temperature information easily, quickly and accurately.

An organism monitoring apparatus according to an embodiment of the present invention, the appearance of the ear plug form; And an RFID sensor tag mounted inside the exterior, wherein the RFID sensor tag comprises: a temperature sensor measuring a whistle temperature of the organism; A microchip for modulating the temperature information measured from the temperature sensor and identification information of the organism to be transmitted to the outside; And an antenna for outputting the modulated signal from the microchip or receiving a signal transmitted from an external device.

In an embodiment, the exterior is a trapezoidal cone shape and is made of polyurethane, and the temperature sensor is located at the side of the large diameter of the exterior, and the antenna is located at the side of the small diameter of the exterior.

In an embodiment, the appearance includes protrusions and grooves to be secured to the ear of the organism.

In example embodiments, the microchip may be operated by a command of an external device (RF reader), or may be operated for a predetermined time, or while the temperature sensor measures the whistle temperature.

In an embodiment, the microchip may include a microprocessor; A voltage switching circuit for changing the power provided from the battery to the voltage used in the microchip; A voltage sensing circuit sensing an output voltage of the voltage switching circuit; A regulator for maintaining a constant output voltage of the voltage switching circuit by using a sense voltage of the voltage sensing circuit; A demodulator for detecting a received signal transmitted from an external device and transmitting the detected signal to a microprocessor; A modulator for modulating the detected temperature of the temperature sensor and the identification information of the organism into a transmission signal through the antenna; And a clock generator for generating a clock for use in the microprocessor when modulating the transmission signal or detecting the reception signal.

 The organism monitoring apparatus according to an embodiment of the present invention can insert an RFID device with a built-in ear sensor into the ear, thereby identifying an organism and managing the temperature of the organism more efficiently.

1 is a diagram illustrating an organism monitoring apparatus according to an embodiment of the present invention by way of example.
FIG. 2 is a block diagram illustrating an example of the microchip illustrated in FIG. 1.

Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings so that those skilled in the art may easily implement the technical idea of the present invention.

The present invention provides an apparatus in the form of earplugs for monitoring the condition of an organism including a human. More specifically, the present invention inserts an RFID sensor with a built-in ear plug in the ear plug into the ear to identify the organism and provides the temperature of the organism so that disease monitoring, diffusion prevention and status information can be easily confirmed. Provided is an organism monitoring device that provides efficient management.

1 is a diagram illustrating an organism monitoring apparatus according to an embodiment of the present invention by way of example. Referring to FIG. 1, the organism monitoring apparatus 100 includes an exterior 110 in the form of an earplug, a temperature sensor 120, a microchip 130, a battery 140, and an antenna 150. The temperature sensor 120, the microchip 130, the battery 140, and the antenna 150 are RFID sensor tags. The apparatus 100 for monitoring the organism of the present invention may be referred to as a radio frequency identification sensor tag.

Exterior 110 may be implemented in a trapezoidal cone shape to facilitate mounting in the ear. However, the appearance 110 according to the embodiment of the present invention will not necessarily be limited thereto.

In an embodiment, the exterior 110 may be made of a material having a good restoring force such as polyurethane so that a foreign body is not felt in the ear of the organism.

In an embodiment, the exterior 110 may include a protrusion 111 and a groove 112 to be fixed in the ear of the organism. Here, the protrusion 111 and the groove 112 enable the detachment for reuse of the organism monitoring device 100.

In an embodiment, the facade 110 may be a symmetric trapezoidal cylinder. However, the appearance 110 according to the embodiment of the present invention is not necessarily limited thereto. Exterior 110 according to an embodiment of the present invention can be implemented in various forms according to the characteristics of the ear shape of the organism. In addition, the thickness or length of the protrusion 111 and the groove 112 of the exterior 110 may be variously implemented.

In an embodiment, the cut surface I-I 'of the exterior 110 may be cylindrical. In another embodiment, the cut plane I-I 'of the exterior 110 may be elliptical.

The larger aperture of the exterior 110 is located outside the ear and is represented by the exterior of the organism monitoring apparatus 100. In addition, the smaller diameter of the exterior 110 is located inside the ear and is represented by the interior of the organism monitoring apparatus 100.

The temperature sensor 120 is mounted inside the organism monitoring apparatus 100 and measures the temperature of the organism. The temperature sensor 120 shown in FIG. 1 is mounted in a form derived from the inside of the organism monitoring field 100. However, the temperature sensor 120 according to the embodiment of the present invention does not necessarily need to be mounted inside the organic monitoring apparatus 100. The mounting position of the temperature sensor 120 according to an embodiment of the present disclosure may vary depending on the type of the temperature sensor 120 as necessary.

The temperature sensor 120 is attached to the inside of the ear insertion type RFID sensor tag and inserted into the ear, placed in the middle of the earplug so as not to touch the living body, and protrudes for temperature measurement to measure the temperature in the ear. In addition, the measured temperature information may be transmitted to the external device (not shown) through the microchip 130.

Although the organic monitoring apparatus 100 illustrated in FIG. 1 is equipped with a temperature sensor 120, the organic monitoring apparatus 100 according to an embodiment of the present disclosure is not necessarily limited thereto. Monitoring device 100 according to an embodiment of the present invention may include a variety of sensors (for example, pressure sensor, etc.) other than the temperature sensor. Through this, the organism monitoring apparatus 100 according to the embodiment of the present invention may be used for various purposes as well as integrated management of the organism.

The microchip 130 commands the temperature sensor 120 to measure the temperature, receives the measured result from the temperature sensor 120, modulates the input temperature information, and transmits the temperature information to the external device. When the microchip 130 transmits temperature information to an external device, the microchip 130 may be implemented to transmit identification information for identifying an organism together with the temperature information.

Meanwhile, the microchip 130 may receive a command signal from an external device and process the input command.

For example, the microchip 130 may not operate at all times and may be operated by a command of an external device (RF reader), operated for a predetermined time, or operated for a limited time during which the temperature sensor 120 measures temperature. Can be implemented.

The battery 140 provides a power source for driving the microchip 130. In an embodiment, the battery 140 may be a battery such as a lithium ion battery.

The antenna 150 is located in a form derived from the outside of the organism monitoring apparatus 100 and is used to output a transmission signal corresponding to the temperature information of the microchip 130 or to receive a signal transmitted from an external device.

In an embodiment, the antenna 150 is an antenna for RF transmission and reception, and may be implemented so that some or all of the antennas are inserted into the at least one RFID sensor tag.

Conventional organism monitoring device having an insertable RFID sensor tag has the potential to cause biologic abnormalities such as tumor cause or inflammatory disease, threatens the stability of meat consumers in case of loss or damage in livestock body, and difficult to reuse RFID. .

In addition, the conventional organic monitoring device having an embedded RFID sensor tag is difficult to fix the sensor, so accurate temperature measurement is not possible, and when inserted into the ear, the animal may have a foreign body feeling, causing anxiety, protruding from the outside, and possibly causing damage.

The organism monitoring apparatus 100 according to the embodiment of the present invention has a built-in RFID sensor tag in the form of an ear plug which is easily inserted into an ear of an organism including a human, and thus is easily removable for reuse.

In the organism monitoring apparatus 100 according to the embodiment of the present invention, since the appearance 110 having a low foreign body feeling is implemented in an intubated form, there is no possibility of causing inflammation or tumor.

The organism monitoring apparatus 100 according to the embodiment of the present invention is conveniently inserted according to the shape of the organism, and transmits the temperature of the organism in real time to an external device, so that the organism can be easily, quickly and accurately managed.

FIG. 2 is a block diagram illustrating the microchip 130 shown in FIG. 1. Referring to FIG. 2, the microchip 130 may include a microprocessor 131, a voltage switching circuit 132, a regulator 133, a voltage sensing circuit 134, a demodulator 135, a modulator 136, and a clock generator ( 137).

The microprocessor 131 controls the overall operation of the microchip 130.

The voltage switching circuit 132 changes the power provided from the battery (see FIG. 1, 140) to the voltage to be used in the microchip 130.

The regulator 133 keeps the output voltage of the voltage switching circuit 132 constant.

The voltage sensing circuit 134 senses the output voltage of the voltage switching circuit 132. Based on the measured output voltage, the regulator 133 will maintain the output voltage.

The demodulator 135 detects a received signal transmitted from an external device (RF reader) and delivers it to the microprocessor 131. The detected signal may include an identification information of the organism and a temperature sensing command for sensing the temperature of the organism.

The modulator 136 modulates the temperature information measured from the temperature sensor 120 and the identification information of the organism into a signal to be transmitted through the antenna 150 (see FIG. 1). The modulator 136 may change the input impedance according to the signal input to the microchip 130.

The clock generator 137 generates a clock by itself to generate a clock used for the microprocessor 131. For example, the clock generator 137 may generate a clock that is used to detect the received signal of the demodulator 135 or to modulate the transmission signal of the modulator 136.

While the invention has been shown and described with reference to certain preferred embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made therein without departing from the spirit and scope of the invention. Therefore, the scope of the present invention should not be limited to the above-described embodiments, but should be determined by the equivalents of the claims of the present invention as well as the claims of the following.

100: organism monitoring device
110: appearance
120: temperature sensor
130: microchip
140: Battery
150: antenna
131: microprocessor
132: voltage switching circuit
133: regulator
134: voltage sensing circuit
135: demodulator
136: modulator
137: clock generator

Claims (1)

Appearance in the form of earplugs; And
Including an RFID sensor tag mounted inside the exterior,
The RFID sensor tag,
A temperature sensor for measuring the whistle temperature of the organism;
A microchip for modulating the temperature information measured from the temperature sensor and identification information of the organism to be transmitted to the outside; And
And an antenna for outputting the modulated signal from the microchip.

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