KR200438407Y1 - RFID Capsule and Microwave ID Capsule having Temperature Sensor therein - Google Patents

Abstract

The present invention is a capsule-type radio frequency tag consisting of an IC chip and an antenna coil with a CPU and a memory, wherein the IC chip further comprises a clock and a battery power saving circuit, the tag, at one end of the tag A temperature sensor installed to transmit the measured value to the IC chip; And a battery which is partially or entirely inserted into the antenna coil and supplies power to the IC chip, wherein the battery power saving circuit is activated at a predetermined period (first period) according to the clock signal. To transmit the radio frequency tag to the CPU, whereby at least the measured value and the measured time of the temperature sensor can be stored in the memory, thereby measuring and observing the change in body temperature of the animal over a long period of time. In addition, there is an effect that the price is cheap and easy to use.

RFID, tag, capsule, battery, temperature measurement, temperature sensor, power saving circuit.

Description

RFID Capsule and Microwave ID Capsule having Temperature Sensor therein}

1A and 1B show a basic configuration of a conventional RFID tag;

2 is a view showing the appearance of a capsule according to the present invention,

3 is a view showing the internal structure of the capsule according to the present invention,

Figure 4 is a graph showing the temperature measurement operation of the capsule according to the present invention.

The present invention relates to a radio frequency recognition system for reading information of an RFID tag in a non-contact manner using radio frequency, and more particularly, to a radio frequency recognition system in which a temperature sensor for animal disease management is embedded in a tag. .

In the pastoral farming of cattle and horses, the treatment and management of diseases of animals is one of the most important tasks for livestock raising, and one of the methods of judging whether an animal has a disease is to increase the temperature of the animal. The measuring method has been mainly used. Thermography of animals is also important for other purposes, for example, because heat stress on livestock can lead to death, which can reduce their productivity and cause loss to producers. Accurate collection of animal body temperature is important in heat stress studies.

The oldest conventional method for measuring the temperature of livestock is to measure the temperature by contacting the thermometer directly with each livestock, but in the case of grazing in tens or hundreds of units, a considerable amount of time and effort is required for each measurement. There was a problem. As a method of solving this problem, the method of measuring the body temperature of a livestock by contactlessness using infrared rays or RFID is widely used until now. However, even with this conventional non-contact method, since only the body temperature of the livestock is measured at the time of measuring the body temperature, there is a problem that the producer does not know at all about the situation before the measuring point and the temperature of the livestock over a certain period of time. In order to grasp the change, there was a hassle of having to measure body temperature according to the above method every time.

The most recent method to solve this problem is to use a capsule and data recorder with a built-in temperature sensor. According to this method, a small capsule consisting of a temperature sensor, a battery, and a transmitter is surgically inserted or swallowed in a cow or a pig, and the body temperature of the animal is recorded while the data recorder is fixed to the back of the animal. This makes it possible to measure long-term changes in body temperature for livestock, but, apart from the capsules that are inserted into the skin or body of the livestock, the data recording device had to be fixed to the back of the livestock, making the device complex and expensive. There was. In addition, it is almost impossible for livestock to be suspended from the device for a long time (months or years) under the usual circumstances of raising livestock on large pastures, rather than for specific research purposes for relatively short periods of time. But it was very difficult and cumbersome for the producers.

The present invention is to solve the above problems, it is an object of the present invention to provide a radio frequency recognition system that can be used at low cost and easy while measuring and observing changes in body temperature of livestock over a long period of time.

Hereinafter, a configuration of the present invention will be described with reference to the accompanying drawings.

1A and 1B show a basic configuration of a conventionally used RFID device. As shown in Fig. 1A, the RFID tag 10 is a passive tag which does not have a power source by itself, and is composed of a semiconductor IC chip, an antenna 13, etc., on which a CPU 11, a memory 12, and the like are mounted. The tag 10 may have various shapes. In this configuration, the reader (not shown) transmits a specific frequency signal in the RF band. At this time, when the tag 10 is located in the electromagnetic field formed by the RF signal of the reader, the tag 10 obtains the operating power required to operate the IC chip from the RF signal of the reader, and the tag 10 is a memory. Data stored in (12) is transmitted to the reader through the antenna (13).

In livestock raising, tags such as those shown in FIG. 1A have typically been used for identification of livestock. For example, each animal has been identified by attaching a tag having an ID for identifying each animal to a specific portion of each animal (for example, a cow's ear, etc.) and reading the tag.

Meanwhile, FIG. 1B is an active tag in which the battery 16 is embedded in the tag 10, and is capable of reading / writing itself and combining sensors to detect and store information such as external temperature and humidity. Has However, the active tag has a disadvantage in that it is difficult to miniaturize and the price is limited depending on the life of the power supply because the battery has a built-in battery, so this type of tag was not very useful for raising livestock or raising animals.

Based on this prior art, the inventor devises a tag that not only stores the ID for identification of the animal, but also can measure and observe the body information such as the temperature change of the animal over a long period of time, and is inexpensive and easy to use. 2 and 3 show the appearance (FIG. 2) and the internal configuration (FIG. 3) of an embodiment of the capsule tag according to the present invention, respectively.

As shown in FIG. 2, the RFID tag of the present invention has a capsule form. The capsule includes an IC chip 30 having a CPU, a memory, etc., an RF antenna 40, a temperature sensor 50, a battery 60, and the like, as shown in FIG. Even if the capsule of the present invention is operable (to be described later), the size of the capsule can actually be very small, and thus can be inserted and placed directly under the skin of the animal without causing a large rejection.

 One end of the capsule is attached to the temperature sensor 50 serves to measure the temperature in the body of the animal. In this embodiment, the temperature sensor 50 is installed at the end of the capsule, but the installation position may be changed as necessary. For example, in alternative embodiments a temperature sensor may be located in the center of the capsule.

In general, the term 'RFID' in the term 'RFID' means a low frequency signal, and the recognition distance for the reader to recognize a tag is often shorter than 1 m, but the present invention is not limited to the low frequency RFID. For example, an alternative embodiment of the present invention may use microwaves such as UHF, microwave, and in this case, since the distance between the tag and the reader may be 10 m or more, the reader may be attached to the tag, for example, when grazing and raising livestock. The present invention can work even in situations where it is extremely difficult or impossible to read closely.

Figure 3 shows the internal structure of the capsule tag according to the present invention.

The IC chip 30 includes a CPU 31, a memory 32, a clock 33, and a battery power saving circuit 34. Although the RF antenna 40 in the illustrated embodiment has been shown to consist of the same antenna coil as used in conventional RFID tags, alternative embodiments may also comprise flexible antennas in the form of films, in which case the capsule enclosure At least a portion of may act directly as an antenna. Therefore, since the space occupied by the antenna coil 40 of FIG. 3 can be removed, the volume of the capsule can be reduced. Furthermore, when the IC chip 30 is configured as a flexible PCB, since the antenna and the integrated circuit can be mounted at the same time, the CPU 31, the memory 32, the clock 33, the battery power saving circuit 34, etc. The same components can also be mounted on the flexible PCB, which acts as a capsule enclosure, further reducing the volume of the capsule.

The temperature sensor 50 is attached to one end of the capsule 20, and serves to detect the body temperature of the animal while the capsule is inserted into the animal's skin. The detected body temperature information is transmitted to the IC chip 30 through the conductive wire 51 and stored in the memory 32. In the memory 32, a unique ID of the capsule 20 is basically stored, and additional information such as an operator may be stored.

The battery 60 may be a conventional battery such as a lithium ion battery. In the present invention, a small battery having a small capacity is used, and since the whole or part of the battery 60 is located in the space inside the antenna coil 40 as shown, since the volume of the entire capsule can be reduced, the capsule is inserted into the body. It can have a small size suitable to be used as.

Meanwhile, although FIG. 3 illustrates that the conductive wire 51 from the temperature sensor 50 is connected to the IC chip 30 through a space between the antenna coil 40 and the battery 60, this configuration may vary depending on the embodiment. Can be. In addition, as described above, the battery 60 is located inside the antenna coil 40 and preferably minimizes the capsule volume, but in an alternative embodiment, the antenna coil 40, the temperature sensor 50, and the battery 60 ) Can be changed.

Hereinafter, a method of measuring the temperature of the capsule 20 according to the present invention will be described with reference to FIG. 4.

The temperature sensor 50 built in the capsule 20 of the present invention measures the temperature every predetermined time period Pa in a normal situation. The constant period Pa can be for example 24 hours or 12 hours, so that the body temperature can be measured once or twice a day for the animal in which the capsule 20 is inserted. That is, as time is counted by the clock 33 included in the IC chip 30, the power saving circuit 34 sends a command to the CPU 31 to activate the entire system at each of the periods Pa, and the CPU ( 31 becomes an active mode according to this command, reads the measured value from the temperature sensor 50 at that time, and stores the measured time in the memory 30 together with this measured value. The measurement time may be stored only up to the date and time of measurement, and may be stored up to hours, minutes, and seconds. The active mode of receiving and storing the measured value of the temperature sensor in the memory is performed for a very short time P1, for example, several microseconds, so it occupies only a small part P1 of the entire period Pa and saves most of the time. By being in the mode, the battery usage can be significantly reduced.

By the way, the body temperature is out of a certain temperature range may occur due to an abnormality such as the animal is inserted into the capsule 20, the disease. At this time, according to the present invention, as shown in Figure 4, for example, when the body temperature of the animal exceeds the preset body temperature range (T ₀ ± Tα), the CPU 31, which is monitoring this, is itself in an active mode. The measured value of the body temperature and the measurement time at that time are stored in the memory 32.

In one embodiment of the present invention, for the above body temperature of the animal, the active mode operation can be performed only at the first time when the body temperature exceeds the set range (T ₀ ± Tα), in an alternative embodiment, As shown in FIG. 4, the body temperature measurement and storage operation may be repeated every predetermined period (Pb: Pb> Pa) from the time when the temperature setting range is exceeded.

As described above, the capsule 20 according to the present invention stores the body temperature measurement value and the measurement time at that time every predetermined period (Pa or Pb), and the user directly has a reader (not shown) in the capsule 20. When the animal in which the capsule 20 is inserted is placed within the operating range of any one of the plurality of readers under the situation that one or more readers are installed in a specific area of the farm, as in the operation of the existing RFID tag, The information stored in the memory 32 is transmitted to the reader through the antenna 40. Accordingly, the user grasps the temperature change of the animal over time to determine the animal's disease or uses the information in various studies. Done.

By using the capsule tag according to the present invention as described above, it is possible to measure and observe the changes in the body temperature of the animal over a long period of time, there is an effect that can be used at low cost and simple.

In addition, since the capsule of the present invention is not necessarily used only for animals, and also in some cases may be equipped with a sensor for detecting other information instead of the temperature sensor 50, in this case, for example, a sensor for obtaining specific body information inside the human body. Equipped instead of the temperature sensor 50, the capsule of the present invention may be used to obtain the subject's body information by inserting the capsule under the skin of the subject's human body or by swallowing the subject directly with the mouth.

The present invention described above is not limited to the above-described embodiment and the accompanying drawings, and is limited only by the following claims, and variously change or modify the configuration of the present invention without departing from the technical spirit of the present invention. can do.

Claims (5)

In the radio frequency tag consisting of an IC chip and an antenna coil with a CPU and a memory, The IC chip further includes a clock and battery power saving circuit, The tag has a capsule shape, a temperature sensor installed at one end of the tag and transmitting the measured value to the IC chip; And a battery which is partially or entirely inserted into the antenna coil and supplies power to the IC chip. The battery power saving circuit transmits an activation signal to the CPU every predetermined period (first period) according to the clock signal, and thus at least the measured value and the measurement time of the temperature sensor are stored in the memory. Radio Frequency Tag. In the radio frequency tag consisting of an IC chip and an antenna with a CPU and a memory, The IC chip further includes a clock and battery power saving circuit, The tag has a capsule shape, a temperature sensor installed at one end of the tag and transmitting the measured value to the IC chip; And a battery for supplying power to the IC chip. The antenna is a flexible antenna in the form of a film constituting at least a portion of the capsule housing, wherein the battery power saving circuit transmits an activation signal to the CPU every predetermined period (first period) according to the signal of the clock, At least the measured value and the measured time of the temperature sensor are stored in the memory. The radio frequency tag according to claim 1 or 2, wherein when the value measured by the temperature sensor is out of a predetermined temperature range, the temperature measurement value and the measurement time are stored in the memory. According to claim 3, If the value measured by the temperature sensor is out of a predetermined predetermined temperature range, the measured value and the measurement time at this time, and the measured value and measurement measured at a certain period (second period) from the time And store a time in the memory, wherein the second period is less than the first period. 5. The radio frequency tag of claim 4, wherein the radio frequency tag is operated by a microwave signal.

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