JP2011235079A - Uhf band ic tag for urine sensor and hf band ic tag for urine sensor - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a UHF band IC tag for urine sensor and an HF band IC tag for urine sensor, which can clearly identify whether urine is present in the circumference, and a reliable urination detection system with minimized malfunction by using such a tag as a urine sensor.SOLUTION: The UHF band or HF band IC tag includes an IC chip 4 and an antenna circuit, and communicates with a reader by synchronizing the resonance wavelength of the antenna circuit to a predetermined wavelength. A cutout (1e, 2f) that forms a urine sensor portion is provided in a part of an impedance match loop portion (1b) or mismatch loop (2e) to form the urine sensor. According to this, whether urine or electrolyte is present around the tag can be clearly identified depending on whether the communication with the reader is possible or not. These IC tags are used as urine sensors, whereby the detection accuracy of the urination detection system is improved.

Description

  The present invention relates to a UHF (ultra-high frequency) band IC tag for a urine sensor, an HF (short wave) band IC tag for a urine sensor, and a urination detection system using one of them.

  2. Description of the Related Art Conventionally, a urination detection system using a non-contact type tag, label, or the like as a urine sensor has been operated in medical facilities, nursing facilities, elderly care facilities, and the like (see Patent Document 1).

  This urine detection system includes a disposable resonant tag or the like that is attached to the inner surface of a diaper or the like to become a urine sensor, a reader that communicates with the tag via an antenna module or the like disposed in the vicinity of the tag, and the reader When the urination is detected or abnormal, the position and state of the patient and the cared person are communicated from the control means to the medical personnel through the communication means such as a communication line. It is now notified (reported) to caregivers.

  In such a conventional urination detection system, detection of urine using a tag as a probe is performed according to the following principle. That is, in the case of a urination detection system using the resonance tag as a urine sensor, the resonance wavelength of the antenna changes due to urine or electrolyte entering between the winding antennas of the resonance tag. Yes. This makes it difficult to detect (read) a tag by a reader that scans by transmitting radio waves of a predetermined wavelength. Then, when the signal level of the resonance tag changes from detectable to undetectable (below a certain threshold), it is captured as the timing of urination, and a predetermined notification format (transmission of optical signal or audio signal or Signals such as cautions and warnings are sent according to notifications to the host server).

JP 2004-139545 A

  However, a urination detection system using the above-described resonance tag or the like as a urine sensor has a problem that there are many malfunctions (false reports). This malfunction is because urination is not occurring, but a signal that detects urination is emitted, and the cause is that the resonance tag used as a urine sensor is sensitive to moisture. This is probably because of this.

  In other words, the resonance tag has a steep and narrow optimum band (band peak) of the resonance wavelength. Therefore, if the resonance tag is placed in close contact with the periphery of the human body as a urine sensor, individual differences in physique, moisture in the skin (other than urine) The resonance wavelength easily shifts due to or sweating. Therefore, the conventional urination detection system that detects a change in the signal returned from the resonance tag may misunderstand that urination has occurred, and there is a demand for improvement.

  The present invention has been made in view of such circumstances, and a UHF band IC tag for urine sensor and an HF band IC tag for urine sensor that can clearly identify whether or not urine is present in the surroundings, and this The purpose of the present invention is to provide a highly reliable urination detection system with few malfunctions by using as a urine sensor.

  In order to achieve the above object, the present invention comprises an IC chip and a UHF band antenna circuit, and the impedance matching loop formed in a part of the antenna circuit reduces the resonance wavelength of the antenna circuit. UHF band IC tag for urine sensor that communicates with a reader in synchronization with a predetermined wavelength, and UHF for urine sensor in which a notch for electrically disconnecting the loop is formed in a part of the loop The band IC tag is a first gist.

  Furthermore, the present invention includes an IC chip and an antenna circuit for UHF band, and the resonance wavelength of the antenna circuit is set to a predetermined wavelength by the first loop portion for impedance matching formed in a part of the antenna circuit. A UHF band IC tag for a urine sensor that communicates with a reader in synchronization, wherein a second loop portion for impedance mismatching is provided in a part of the antenna circuit, and a part of the second loop portion. The urine sensor UHF band IC tag in which a cutout portion for electrically disconnecting the loop portion is formed is a second gist.

  In order to achieve the above object, the present invention comprises an IC chip and an antenna circuit for HF band, and a resonance wavelength of the antenna circuit is provided by an impedance matching loop formed in a part of the antenna circuit. HF band IC tag for urine sensor that communicates with a reader by synchronizing with a predetermined wavelength, and a notch portion that electrically cuts off the loop portion is formed in a part of the loop portion The HF band IC tag is a third gist.

  The present invention includes an IC chip and an antenna circuit for HF band, and the resonance wavelength of the antenna circuit is set to a predetermined wavelength by the first loop portion for impedance matching formed in a part of the antenna circuit. An HF band IC tag for urine sensor that communicates with a reader in synchronization, wherein a second loop part for impedance mismatching is provided in a part of the antenna circuit, and a part of the second loop part. A urine sensor HF band IC tag in which a cutout portion for electrically disconnecting the loop portion is formed is a fourth gist.

  On the other hand, in order to achieve the above object, a urination detection system according to the present invention transmits a urine sensor including the UHF band IC tag described in the first aspect and a radio wave having a predetermined wavelength corresponding to the UHF band IC tag. A reader that communicates with the urine sensor at a position away from the antenna module via a receiving antenna module, recording means for recording signal information of the urine sensor read by the reader, and detection of urine externally A urination detection system comprising: a notification means for transmitting toward the mobile phone, wherein the reader has a timer circuit for transmitting the radio wave at a predetermined time interval, and the notification means includes the reader and the urine sensor. A configuration in which a predetermined urine detection signal is sent to the outside when the communication state between the communication state changes from incommunicable to communicable To the fifth aspect.

  Furthermore, a urination detection system according to the present invention includes a urine sensor including the UHF band IC tag described in the second aspect and an antenna module that transmits and receives radio waves having a predetermined wavelength corresponding to the UHF band IC tag. A reader that communicates with the urine sensor located away from the antenna module, a recording unit that records the signal information of the urine sensor read by the reader, and a notification unit that transmits detection of urine to the outside. The reader has a timer circuit for transmitting the radio wave at a predetermined time interval, and the notification means can communicate the communication state between the reader and the urine sensor. The sixth aspect is a configuration in which a predetermined urine detection signal is transmitted to the outside when communication is changed to communication disabled.

  In order to achieve the above object, a urination detection system according to the present invention transmits a urine sensor including the HF band IC tag described in the third aspect and a radio wave having a predetermined wavelength corresponding to the HF band IC tag. A reader that communicates with the urine sensor at a position away from the antenna module via a receiving antenna module, recording means for recording signal information of the urine sensor read by the reader, and detection of urine externally A urination detection system comprising: a notification means for transmitting toward the mobile phone, wherein the reader has a timer circuit for transmitting the radio wave at a predetermined time interval, and the notification means includes the reader and the urine sensor. The configuration is such that a predetermined urine detection signal is transmitted to the outside when the communication state between the communication status changes from incommunicable to communicable. And of the subject matter.

  A urination detection system according to the present invention includes a urine sensor including the HF band IC tag described in the fourth aspect and an antenna module that transmits and receives radio waves having a predetermined wavelength corresponding to the HF band IC tag. A reader that communicates with the urine sensor located away from the antenna module, a recording unit that records the signal information of the urine sensor read by the reader, and a notification unit that transmits detection of urine to the outside. The reader has a timer circuit for transmitting the radio wave at a predetermined time interval, and the notification means can communicate the communication state between the reader and the urine sensor. An eighth aspect is a configuration in which a predetermined urine detection signal is transmitted to the outside when communication is changed to communication disabled.

  That is, the inventors of the present invention, as a urine sensor of a urination detection system, replaces a conventional resonance tag sensitive to moisture and the like with a UHF (band peak) having a relatively broad and wide optimum band (band peak). Ultra-high frequency: IC tag (UHF band IC tag) that communicates using a band of wavelengths 1 m to 10 cm, frequency 300 MHz to 3 GHz, and HF (short wave: wavelengths 100 m to 10 m, frequency 3 to 30 MHz) We focused on IC tags (HF band IC tags). However, these UHF band IC tags and HF band IC tags are not easily affected by moisture or sweating of the skin even if they are placed around the human body, but they do not shift the resonance wavelength even if urine or electrolytes adhere to them. If it is sufficient and used as it is, the detection of urination may be uncertain. Accordingly, the present inventors have conducted extensive research to improve the detection accuracy of these IC tags as urine sensors, and as a result, impedance matching portions (inductance circuits) of antenna circuits of UHF band and HF band IC tags. In addition, by providing a notch serving as a urine sensor part, a tag in which the resonance wavelength (bandwidth) fluctuates greatly depending on urine, electrolyte, or the like was successfully produced. By using this improved UHF band IC tag and HF band IC tag for urine sensors, a urination detection system that can reliably detect only urine, electrolytes, etc. without reacting to moisture other than urine is constructed. We have found out that we can do it and have reached the present invention.

  As described above, the UHF band IC tag for urine sensor according to the first aspect of the present invention and the HF band IC tag for urine sensor according to the third aspect of the present invention include a part of the loop portion for impedance matching of the antenna circuit. A cutout portion for electrically disconnecting the loop portion is formed. For this reason, these IC tags for urine sensors communicate with the reader because the impedance matching circuit (loop part) is not completed and the resonance wavelengths do not match when the urine or electrolyte is not sufficiently present in the surroundings. I can't. Then, only when the urine, the electrolyte, etc. enter the cutout portion and are short-circuited, and the loop portion is in a conductive state, the resonance wavelengths match and can communicate with the reader. As a result, the urine sensor UHF band IC tag and the urine sensor HF band IC tag determine whether or not urine, electrolyte, etc. exist around the tag, depending on whether communication with the reader is possible or not. It can be clearly identified.

  In the UHF band IC tag for urine sensors according to the second aspect of the present invention and the HF band IC tag for urine sensors according to the fourth aspect of the present invention, a second loop portion for impedance mismatching is provided in part of the antenna circuit. A notch for electrically disconnecting the loop is formed in a part of the second loop. Therefore, contrary to the IC tag for urine sensor of the first and third aspects, the impedance mismatch circuit (loop part) is not completed at the time of drying when urine or electrolyte is not sufficiently present in the surroundings, Can communicate with the reader. Then, only when the urine, the electrolyte, etc. enter the cutout portion and are short-circuited and the loop portion is completed (conducted), the resonance wavelength is greatly shifted, and communication with the reader cannot be performed. As a result, the urinary sensor UHF band IC tag of the second aspect and the urinary sensor HF band IC tag of the fourth aspect also have urine and urine around the tag depending on whether communication with the reader is possible or not. Whether or not an electrolyte is present can be clearly identified.

  The urination detection system according to the fifth and seventh aspects of the present invention includes a urine sensor including the IC tag according to the first and third aspects, a reader communicating with the urine sensor, and a signal of the urine sensor. A recording means for recording information; and a notification means for transmitting detection of urine to the outside, wherein the reader has a timer circuit for transmitting the radio waves at a predetermined time interval, When the communication state between the reader and the urine sensor changes from incommunicable to communicable, a predetermined urine detection signal is transmitted to the outside. Therefore, this urination detection system can detect only urination without any malfunction due to skin moisture or perspiration even when the urine sensor is placed in close contact with the human body. Thereby, while being able to reduce the burden of a medical staff, a caregiver, etc., wastes, such as changing the diaper which has not been urinated, can also be omitted.

  The urination detection system according to the sixth and eighth aspects of the present invention also includes a urine sensor comprising the IC tag according to the second and fourth aspects, a reader communicating with the urine sensor, and a signal of the urine sensor. A recording means for recording information; and a notification means for transmitting detection of urine to the outside, wherein the reader has a timer circuit for transmitting the radio waves at a predetermined time interval, When the communication state between the reader and the urine sensor changes from communicable to incommunicable, a predetermined urine detection signal is transmitted to the outside. The same effect as the urination detection system which is the gist of the above can be obtained.

  The notification means adds the signal information of the urine sensor recorded in the recording means to the urine detection signal and transmits the urine detection system for each patient, care recipient, etc. It becomes possible to respond quickly to. In addition, it is possible to grasp the number of urinations and patterns of individual patients and cared persons, etc., and it is possible to select the transmission destination and contact method of the detection signal according to the signal information. It is possible to reliably transmit information to a predetermined contact address or the like through a PHS, a mobile phone, a mobile information terminal, or the like.

(A), (b) is a top view which shows typically the example of a pattern of the antenna circuit of the UHF band IC tag for urine sensors in 1st Embodiment of this invention. It is explanatory drawing which shows the state which attached the urine sensor which consists of IC tag of 1st Embodiment to the diaper. (A), (b) is a top view which shows typically the modification of the pattern of the antenna circuit of the UHF band IC tag for urine sensors in 1st Embodiment, (c) is the antenna of a UHF band IC tag It is a top view which shows the reference example (conventional example) of the pattern of a circuit. (A) is a top view which shows typically the example of a pattern of the antenna circuit of the HF band IC tag for urine sensors in 2nd Embodiment of this invention, (b) is a top view which shows the state which masked except the sensor part It is. (A) is a top view which shows typically the example of a pattern of the antenna circuit of the HF band IC tag for urine sensors in 3rd Embodiment of this invention, (b) is a top view which shows the state which masked other than the sensor site | part It is. It is explanatory drawing which shows schematic structure (system image) of the urination detection system in embodiment of this invention. It is explanatory drawing which shows the example which attached the antenna module and reader | leader of the urination detection system of embodiment to the bed. It is explanatory drawing which shows the example which attached the antenna module and reader of the urination detection system of embodiment to the wheelchair. It is a graph which shows the frequency characteristic of the UHF band IC tag for urine sensors in the Example of this invention.

  Next, embodiments of the present invention will be described in detail with reference to the drawings.

  The urination detection system according to the embodiment of the present invention is assumed to be used in a medical facility, a nursing facility, etc., and a UHF band IC tag 1 for urine sensor [FIG. 1 (a)] or a urine sensor UHF. The band IC tag 2 [FIG. 1 (b)] or the HF sensor IC tags 7 and 8 (see FIGS. 4 and 5) for the urine sensor are placed at a predetermined position of the diaper 5 as the urine sensor 10 as shown in FIG. The diaper 5 is pasted and worn by a patient or a care recipient in the facility. In the facility, as shown in FIG. 6, a plurality of sets of antenna modules 11 and readers 12 for communicating with the urine sensor 10 are disposed at necessary locations such as a hospital room and a living room, and are managed. A control unit 13 (including a recording unit and a notification unit) including a computer that integrates and controls the plurality of readers 12 is disposed in a nurse center on the side of the side.

First, a urine sensor worn by a patient, a care recipient, etc. will be described.
In the first embodiment of the present invention, the UHF band IC tag 1 having an antenna circuit (pattern A) as shown in FIG. 1A as the urine sensor UHF band IC tag to be attached to the diaper 5, or FIG. A UHF band IC tag 2 having an antenna circuit (pattern B) as shown in 1 (b) is used.

  The UHF band IC tag 1 having the antenna circuit (pattern A) will be described in detail. The antenna circuit [FIG. 1 (a)] of the UHF band IC tag 1 is formed on the surface of the film-like or sheet-like substrate 3. For example, using a printing method such as flexographic printing or screen printing, a conductive paste (conductive ink) is applied to a predetermined pattern, or a method of attaching a stamped metal foil, vapor deposition, etching or the like is used. Is formed. This antenna circuit (pattern A) includes two antenna units 1a and 1a that transmit and receive radio waves of a predetermined wavelength, a loop unit 1b for impedance matching of the antenna, and a bridge unit 1c that connects between them. The loop portion 1b is formed with an IC chip connection portion 1d for mounting the IC chip 4 (two-dot chain line) and a notch portion 1e for electrically disconnecting the impedance matching structure of the loop portion 1b. Yes.

  The notch 1e is formed in a straight line parallel to each other, the pattern width (line width) of the parallel (opposite) portions is usually 0.1 mm or more, and the extension in the longitudinal direction of the opposite portions is usually 0.00. It is 1 mm or more. Between these, a groove (a portion having no antenna pattern) having a width of 0.1 mm or more is formed.

  In the antenna circuit of the pattern A, the IC chip 4 is mounted on the IC chip connection portion 1d, and the cut-out portion of the IC chip 4, the antenna portion 1a, the bridge portion 1c, and the loop portion 1b. The region excluding 1e and the vicinity thereof is sealed with a resin sheet, waterproof paper, or the like, and the urine sensor UHF band IC tag 1 (urine sensor 10) is manufactured.

  Since the UHF band IC tag 1 for urine sensor is in close contact with the skin of a patient or a cared person, when used as the urine sensor 10, it is made of a hygroscopic material such as nonwoven fabric or paper. A bag (packaging) or a cover is placed (see FIG. 2). The bag or the upper paper made of the hygroscopic material also has an effect of guiding moisture such as urine and electrolyte to the unsealed notch 1e. Further, on the back side of the bag made of the hygroscopic material (the side of the base material 3 where the UHF band IC tag 1 is not formed), an adhesive or both sides for fixing the position of the urine sensor 10 is used. Tape etc. are arranged.

  When such a UHF band IC tag 1 is used as the urine sensor 10, as described above, a part of the loop portion 1b for impedance matching of the antenna circuit is electrically disconnected from the loop portion 1b. Since the notched portion 1e is formed, the impedance matching circuit (loop) is not completed when the urine or the electrolyte is not present in the surroundings, and the resonance wavelength of the antenna (band having a certain width) is not obtained. Is significantly shifted from the wavelength (predetermined) of the radio wave transmitted from the reader 12 or the like. Therefore, in this state, the urine sensor UHF band IC tag 1 cannot communicate with the reader 12 or the like.

  Only when the urine, electrolyte, etc. enter the groove formed in the notch 1e and this portion is short-circuited to complete the impedance matching circuit (loop), the resonance wavelength (band) of this antenna However, it is greatly shifted to a range where communication with radio waves of a specific wavelength transmitted from the reader 12 or the like is possible, and communication with the reader 12 or the like becomes possible. It has been confirmed that such a significant shift in the resonance wavelength (band) of the antenna does not occur due to a change in the dielectric constant around the antenna due to moisture or sweating of the skin.

  For these reasons, when the UHF band IC tag 1 is used as the urine sensor 10, it is not affected by skin moisture, sweating, or the like, and changes from a state in which communication with the reader 12 or the like is disabled to a state in which communication is possible. It is possible to clearly identify whether or not there is urine or electrolyte around the tag 1, that is, whether or not urination has occurred.

  In this way, the urine sensor UHF band IC tag 1 having the antenna circuit of the pattern A detects urination by changing from being impossible to communication with the reader 12 or the like, whereas FIG. The urine sensor UHF band IC tag 2 having the antenna circuit (pattern B) as shown in b) detects urination by changing from being able to communicate with the reader 12 or the like to being impossible. Hereinafter, the UHF band IC tag 2 having the antenna circuit (pattern B) will be described.

  The antenna circuit [FIG. 1 (b)] of the UHF band IC tag 2 is different from the antenna circuit (pattern A) of the UHF band IC tag 1 in that the first impedance matching is equivalent to the antenna circuit of the pattern A. In addition to the loop portion 2b, a second loop portion 2e for disturbing (making mismatch) the impedance of the antenna is formed. The second loop portion 2e is electrically connected to a part of the second loop portion 2e. The notch part 2f which cuts off automatically is provided.

  In FIG. 1B, reference numeral 2a denotes an antenna portion, 2c denotes a bridge portion, and 2d denotes an IC chip connection portion. Further, the cutout portion 2f is formed in a straight line parallel to each other like the cutout portion 1e of the pattern A, and the pattern width (line width) of the parallel (opposite) portion is usually 0.1 mm or more. The extension in the longitudinal direction of the facing portion is usually 0.1 mm or more. Between these, a groove (a portion having no antenna pattern) having a width of 0.1 mm or more is formed.

  In the same manner as the UHF band IC tag 1, the notch 2f and the area except for the vicinity thereof are sealed with a resin sheet, waterproof paper, or the like, and the UHF band IC tag 2 for urine sensor (urine sensor 10) is manufactured. Is done. Further, a hygroscopic bag (packaging) or an upper paper is covered from above, and a double-sided tape or the like for fixing the position of the urine sensor 10 is disposed on the back side of the bag.

  When the UHF band IC tag 2 having such an antenna circuit (pattern B) is used as the urine sensor 10, a second loop portion 2e for impedance mismatching is provided in a part of the antenna circuit, and the second loop Since a notch 2f that electrically cuts off the loop 2e is formed in a part of the part 2e, the impedance mismatch circuit (first circuit) is used during drying when urine, electrolyte, etc. are not present in the surroundings. 2 loop) is not completed, and the resonance wavelength (band) of the antenna is in a range where it can communicate with radio waves of a specific wavelength transmitted from the reader 12 or the like. Therefore, in this state, the urine sensor UHF band IC tag 2 can communicate with the reader 12 and the like.

  Then, only when the urine, electrolyte, etc. enter the groove formed in the notch 2f and this part is short-circuited to complete the impedance mismatching circuit (second loop), the resonant wavelength of this antenna The (band) greatly deviates from a range where communication with a radio wave of a specific wavelength transmitted from the reader or the like is made, and communication with the reader 12 or the like becomes impossible. In the UHF band IC tag 2 as well, as in the UHF band IC tag 1, such a significant shift in the resonance wavelength (band) of the antenna is caused by the dielectric constant around the antenna due to skin moisture, sweating, and the like. It turns out that change does not happen.

  As a result, even when the UHF band IC tag 2 is used as the urine sensor 10, by changing from a state in which communication with the reader 12 or the like is impossible without being influenced by moisture or sweating of the skin, Whether urination has occurred can be clearly identified.

  In the above embodiment, the antenna circuit patterns for the UHF band IC tag are shown in FIGS. 1A and 1B in order to make the characteristics easy to understand. The simplified antenna circuit patterns A and B, which are connected by the bridge portion 1c, are exemplified. However, as the antenna circuit pattern for the UHF band, in addition to the above-described rectangular (solid) shape, a spiral coil shape, and other special patterns There are various variations depending on the resonance theory employed, such as the wave shape. In addition, the antenna circuit pattern actually manufactured takes into consideration various environmental factors such as the influence of moisture and sweat in the vicinity of the human body, the dielectric constant of the human body itself, the shielding effect, the optimum wavelength and output on the reader side, Prior adjustment (tuning of resonance wavelength, etc.) is performed so as to obtain optimum communication conditions when placed in the diaper. For this reason, the antenna circuit pattern may appear to be different from the antenna circuit pattern for the UHF band IC tag of the present invention [see the conventional IC tag 6 in FIG. 3 (c) as a reference example. ].

  However, the UHF band IC tag for urine sensor of the present invention does not depend on the overall shape of the antenna circuit pattern, but electrically disconnects it from an annular portion (inductance portion) for impedance matching of the antenna circuit. And a UHF band IC tag having a structure (shape) to be provided, an annular portion (inductance portion) for impedance matching in a part of the antenna circuit, and another annular portion for disturbing impedance in another portion of the antenna circuit A UHF band IC tag in which a portion is provided and a structure (shape) for electrically disconnecting the other annular portion is formed is included.

  For example, when the basic antenna pattern is shown in FIG. 3C, a notch portion 1e for electrically disconnecting the loop portion 1b is formed in a part of the impedance matching loop portion 1b of the antenna circuit. As a modified example of the antenna circuit pattern A [FIG. 1 (a)], an antenna circuit pattern A ′ as shown in FIG. 3 (a) can be given. Even if such an antenna pattern is adopted in the UHF band IC tag 1 for the urine sensor, the urine sensor 10 has the same effect.

  Further, for example, a second loop part 2e for impedance mismatching is provided in a part of the antenna circuit, and a notch part 2f that electrically disconnects the loop part 2e is provided in a part of the second loop part 2e. As a modified example of the antenna circuit pattern B [FIG. 1B] formed with the antenna circuit pattern B ′ as shown in FIG. 3B, even when the UHF band IC tag 2 for the urine sensor is employed. The urine sensor 10 can achieve the same effect.

  In any case, the upper surface of the structure (notch shape) that electrically cuts off the annular portion is not sealed or laminated with a resin or the like in order to function as a urine sensor, or is exposed or urine It is kept in the state protected by the exterior which can permeate | transmit moisture.

  Next, a second embodiment in which the HF band IC tag 7 is used as a urine sensor worn by a patient, a cared person, or the like will be described. FIG. 4A is a plan view showing a pattern of the antenna circuit of the HF band IC tag for urine sensor in the second embodiment of the present invention, and FIG. It is the top view which shows the state before using.

  As shown in FIG. 4A, the antenna circuit (pattern C) of the urine sensor HF band IC tag 7 according to this embodiment is formed by a printing method, die metal foil pasting, vapor deposition, etching, or the like. It is formed by being laminated on the surface of the film-like or sheet-like substrate 3. The antenna circuit (pattern C) is impedance-matched to a part of the coiled antenna portion 7a, similar to the antenna circuit (pattern A) of the UHF band IC tag 1 in the first embodiment. A cutout portion 7b for electrically disconnecting the structure and an IC chip connection portion 7c for mounting the IC chip 4 are formed.

  The notch portion 7b is formed in a groove shape that cuts off a part of the coil, and the width (groove width) of the portion without the antenna pattern is formed to be 0.05 mm or more. Prior to use as the urine sensor 10, the region excluding the cutout portion 7 b serving as the sensor portion and the vicinity thereof is sealed with a resin sheet 9, waterproof paper, or the like as shown in FIG. Moreover, when using as the urine sensor 10, the bag (packaging) or upper paper which consists of a hygroscopic raw material, such as a nonwoven fabric and paper, is further covered from it (refer FIG. 2).

  Even when the HF band IC tag 7 is used as the urine sensor 10, as in the UHF band IC tag 1 of the first embodiment, a circuit (loop) for impedance matching is provided at the time of drying when urine, electrolyte, etc. are not present in the surroundings. In this state, it is not completed and cannot communicate with the reader. Then, only when the urine, electrolyte, etc. enter the groove formed in the notch 7b and this portion is short-circuited to complete the impedance matching circuit (loop), the resonance wavelength (band) of this antenna However, communication can be performed with a significant shift to a range where communication with radio waves of a specific wavelength transmitted from the reader or the like is possible. Incidentally, in the case of the configuration of this embodiment, it has been observed that the resonance frequency 44 MHz during drying shifts to 13.8 MHz when wet.

  Therefore, the HF band IC tag 7 in this embodiment does not depend on skin moisture, sweating, or the like, and changes from a state where communication with a reader or the like is impossible to a state where communication with a reader or the like is possible. It is possible to clearly identify whether or not an electrolyte or the like is present, that is, whether or not urination has occurred.

  Next, a third embodiment in which the HF band IC tag 8 is used as a urine sensor worn by a patient, a cared person, or the like will be described. FIG. 5A is a plan view showing an antenna circuit pattern of the HF band IC tag for the urine sensor according to the third embodiment of the present invention, and FIG. It is the top view which shows the state before using.

  As shown in FIG. 5A, the antenna circuit (pattern D) of the HF sensor IC tag 8 for the urine sensor in this embodiment is formed by a printing method, pasting of a metal foil that has been punched, vapor deposition, etching, or the like. It is formed by being laminated on the surface of the film-like or sheet-like substrate 3. The antenna circuit (pattern D) includes a second for disturbing (making mismatch) the impedance of the antenna unit 8a, as in the antenna circuit (pattern B) of the UHF band IC tag 2 in the first embodiment. A loop portion 8b is formed, and a cutout portion 8d for electrically disconnecting the second loop portion 8b is provided in a part of the second loop portion 8b.

  The cutout portion 8d is formed in a straight line parallel to each other like the cutout portion of the pattern B, and the pattern width (line width) of the parallel (opposite) portion is usually 0.1 mm or more, and the opposite portion The extension in the longitudinal direction is usually 0.1 mm or more. Between these, a groove (a portion having no antenna pattern) having a width of 0.05 mm or more is formed.

  Further, as in the case of the HF band IC tag 7, as shown in FIG. 5 (b), the region excluding the notch 8d and the vicinity thereof is sealed with a resin sheet 9, waterproof paper or the like, and the HF band IC tag for urine sensor. 8 (urine sensor 10) is produced. In addition, the bag (packaging) or the upper paper which has a hygroscopic property is further covered from the top, and the point that the double-sided tape etc. for fixing the position of the urine sensor 10 etc. is arrange | positioned on the back surface side of this bag is also the same. Yes (see FIG. 2).

  When the HF band IC tag 8 is used as the urine sensor 10, as in the UHF band IC tag 2 of the first embodiment, the circuit for impedance mismatching (second Loop) is not completed, and the resonance wavelength (band) of the antenna is in a range where it can communicate with radio waves of a specific wavelength transmitted from a reader or the like. Therefore, in this state, the HF sensor IC tag 8 for urine sensor can communicate with a reader or the like.

  Then, only when the urine, electrolyte, etc. enter the groove formed in the notch 8d and this part is short-circuited to complete the impedance mismatching circuit (second loop), the resonant wavelength of this antenna is reduced. The (band) greatly deviates from a range in which communication with a radio wave of a specific wavelength transmitted from the reader or the like is made, and communication with the reader or the like becomes impossible. In the case of the configuration of this embodiment, it has been observed that the resonance frequency during drying (usually about 13.2 to 20 MHz) shifts to 100 MHz or more when wet and communication becomes impossible.

  Therefore, even when the HF band IC tag 8 is used as the urine sensor 10, urination is not affected by moisture or sweating of the skin, but changes from a state where communication with a reader or the like is disabled to a state where urination is impossible. You can clearly identify whether it happened.

  Next, the configuration of the entire urination detection system using the urine sensor composed of the UHF band IC tag or the HF band IC tag will be described.

  As described above, the urination detection system according to the embodiment of the present invention includes an antenna module 11 and readers 12 arranged at a plurality of locations in a facility, and a computer arranged at a nurse center as shown in FIG. And the like. These devices are connected to each other via a wired LAN (solid line) or a wireless LAN (one-dot chain line), and a network in which signals (information) can be exchanged with each other is formed.

  The control means 13 has both a function (recording means) for recording signal information of the urine sensor 10 and a function (notification means) for transmitting detection of urine to the outside. Moreover, the symbol R in the figure is a router (wireless LAN router), the symbol C is a coordinator (edge router), and the symbol S is according to the content (information) of the urine detection signal transmitted to the outside. A server (SIP server or the like) having a function of appropriately selecting the delivery destination and delivery contents (voice information, character information, etc.), and a symbol M indicates a portable information terminal such as a PHS or a mobile phone.

  In such a urine detection system, each reader 12 captures a change in the communication state of the urine sensor 10 (from communication disabled to communication enabled or from communication enabled to communication disabled). A radio wave having a predetermined wavelength corresponding to (band) is transmitted at predetermined time intervals, and a timer circuit used for the radio wave is provided.

  The control means 13 is configured to send a predetermined urine detection signal to the outside when the communication state between the reader 12 and the urine sensor 10 changes. The signal information of the urine sensor 10 (the position and number of times, ID information for identifying the person wearing the person, etc.) recorded in the computer or the like of the control means 13 is added to the detection signal and transmitted. ing.

  The antenna module 11 and the reader 12 will be described in more detail. For example, when trying to detect urination of a patient or a cared person who cannot move on a bed, as shown in FIG. A thin antenna module 11 having a relatively wide mat shape or sheet shape is placed on a mattress or the like. A urine sensor 10 attached to a diaper 5 worn by a patient lying on the bed, a cared person, or the like by installing a reader 12 in the vicinity of the reader 12 and connecting them by wiring or the like (see FIG. 2). ) Signal can be detected.

  As described above, when receiving a signal from the urine sensor 10 on a fixed object such as a bed, it is not necessary to always specify the position of the urine sensor 10 before urination. Is a UHF band IC tag 1 having an antenna circuit (pattern A) as shown in FIG. 1 (a) that returns a signal only when urine is detected, or an antenna circuit (pattern C) as shown in FIG. 4 (a). The HF band IC tag 7 having the above is preferably used. When communication with the reader 12 becomes possible (when urine is detected), ID information (RFID information) written in advance on the IC chip is transmitted from the IC tags 1 and 7 to the reader 12. The room number, the bed (patient) number, etc. in which the urine sensor 10 is used can be specified only by specifying the installation location of the router R connected to the reader 12 that has received the signal. Of course, in such a case, the UHF band IC tag 2 or the HF band IC tag 8 that returns a signal when urine is not detected may be used.

  Further, for example, when detecting urination of a patient who is moving in a wheelchair or a cared person, as shown in FIG. 8, the antenna module 11 in a mat shape or a sheet shape is provided on the seat surface of the wheelchair. The reader 12 is installed in the vicinity thereof, and these are connected by wiring or the like. If necessary, the antenna module 11 can be installed or built under the seat surface of the wheelchair (back side) or the backrest.

  In addition, when trying to receive the signal of the urine sensor 10 attached to the diaper 5 worn by a patient or a cared person who can move independently as described above, the position of the urine sensor 10 even before urination is received. It is preferable to always be able to specify. For this reason, the urine sensor 10 returns a signal when urine is not detected, and has a UHF band IC tag 2 having an antenna circuit (pattern B) as shown in FIG. 1B, or FIG. 4B. An HF band IC tag 8 having an antenna circuit (pattern D) as shown is preferably used. Since the ID information written in advance on the IC chips of the IC tags 2 and 8 is transmitted to the reader 12 at predetermined time intervals, only the installation location of the router R connected to the reader 12 that has received this signal is specified. Thus, it is possible to specify the area where the urine sensor 10 is located. Of course, the UHF band IC tag 1 or the HF band IC tag 7 that returns a signal only at the time of urine detection can also be used. In that case, the area where urination occurred and the subsequent action can be grasped.

  Thus, since the urine detection system of this embodiment uses the UHF band IC tags 1 and 2 or the HF band IC tags 7 and 8 for the urine sensor 10, the urine sensor 10 is closely attached to the human body. Even if it is placed, there is no malfunction due to moisture or sweating of the skin, and only urination can be reliably detected. This reliable urination information can reduce the burden on medical personnel and caregivers who manage facilities and the like, and can also eliminate waste such as replacing diapers that have not been urinated.

  Moreover, since this urination detection system can acquire urination information in real time, it becomes possible to respond quickly according to the states of individual patients, care recipients, and the like. In addition, the number of urinations and patterns of individual patients and care recipients can be easily grasped, and PHS, mobile phones and personal digital assistants can be contacted in advance according to the information. Detailed information can be transmitted through such means.

  Next, examples will be described together with comparative examples. However, the present invention is not limited to the following examples.

  In this embodiment, the UHF band IC tag for urine sensor, which has been tuned so as to obtain the optimum communication condition when placed in a diaper, is described in FIG. 3B. The UHF band IC tag of “Embodiment 1” employing the antenna circuit (pattern B) of FIG. 6 is manufactured, and the second loop portion 2e (and notch portion 2f) for impedance mismatching is not provided in the antenna circuit. With the UHF band IC tag [see FIG. 3 (c)] as “Comparative Example 1”, wavelength characteristics (frequency characteristics, degree of resonance wavelength shift due to moisture) at the time of drying and after wetting with water, and communication The possible distance (cm) was compared.

  First, in both Example 1 and Comparative Example 1, an antenna circuit was produced on a substrate by a flexographic printing method. As described above, UHF band IC tag antennas were manufactured under the same conditions except that the circuit patterns were different.

(Base material)
PET film Lumirror (registered trademark) U34 manufactured by Toray Industries, Inc.
Thickness -75μm Corona treatment on both sides (conductive ink)
InkTec Co. , Ltd., Ltd. TEC-PR-030, manufactured by Korea (Korea)
Component Silver particle-average particle diameter: 20 to 50 nm Content: 40 wt% or less
Binder (organic complex compound) content -35 wt% or less
2-Propanol-10wt% or less Viscosity -500mPa · s

(Flexo printing machine)
FC-33S manufactured by MT Tech
(Flexographic printing plate)
Komura Tech Co., Ltd. Plate thickness-2.25mm
Ink holding amount of ink holding portion for antenna portion printing: 0.1 to 1.5 ml / m ²
Ink holding amount of ink holding part for IC chip connection part printing: ^{2 to 3} ml / m ²

<Creation of antenna circuit pattern>
[Antenna Circuit of Example 1]
The conductive ink was printed and transferred onto a PET substrate by the above flexographic printing machine and dried at 120 ° C. for 2 minutes, and then an antenna circuit for Example 1 was obtained. The antenna circuit pattern is the same as that shown in FIG. 3B as described above, and a second loop part for impedance mismatching is provided in a part of the pattern, and a part of the second loop part is provided. A notch for electrically disconnecting this loop portion is formed. The line width of the parallel (opposite) portion of the notch is 1 mm, the width of the groove (the portion without the antenna pattern) is 1 mm, and the longitudinal extension of the opposite portion is 6 mm.

[Antenna Circuit of Comparative Example 1]
An antenna circuit for Comparative Example 1 was obtained in the same manner as in Example 1 except that the antenna circuit pattern was different.

Next, a UHF band IC tag was produced using the obtained IC tag antenna circuit.
<Production of UHF band IC tag>
An IC strap (EPC GenII Higgs3) manufactured by Alien Technology is mounted on the IC chip connecting portion of the IC tag antenna circuit of Example 1 and Comparative Example 1 above, and the waterproofing that protects the IC strap and the vicinity thereof is mounted thereon. Paper (protective paper) was laminated (inlet) to produce UHF band IC tags of Example 1 and Comparative Example 1. Note that most of the antenna circuit pattern (including the cutout portion of the second loop portion) is not covered with the waterproof paper and is exposed. Each UHF band IC tag has a resonance wavelength (band) at the time of drying adjusted to about 0.33 to 0.3 m (frequency: 900 MHz to 1 GHz) in consideration of attachment to a human body.

First, using the obtained UHF band IC tags “Example 1” and “Comparative Example 1” for urine sensors, wavelength characteristics (frequency characteristics) during drying and after wetting with water were measured.
<Measurement of wavelength characteristics (frequency characteristics)>
With the test UHF band IC tag attached to the human body (arm skin), frequency characteristics were measured using a Voyantec tag tester (Field Engineer Accessory Kit and Reference Tag). The term “when wet” refers to a measurement that was applied to the arm while wet. In addition, “when dry” refers to what was measured after being attached to the arm in a state where it was not wet with water, but at the time of drying, there was no difference between Example 1 and Comparative Example 1, and the same result was obtained. Expressed as an experimental blank (when dry). The results are shown in the graph of “FIG. 9”.

  From this graph, it can be seen that the UHF band IC tag for urine sensor optimized for attachment to the human body has a communication distance of about 4 to 6 m in the blank (when dry). And it turns out that "comparative example 1" which does not have the 2nd loop part for impedance mismatching becomes a communicable distance of about half of the said blank (at the time of drying) at the time of wetness. However, no shift in resonance wavelength is observed. On the other hand, “Example 1” having the second loop portion for impedance mismatching has a communicable distance of about ¼ that of the blank (when dry) when wet, and the resonance wavelength is also shifted. I understand that.

<Measurement of communicable distance>
Next, as a more practical test, the test UHF band IC tags of “Example 1” and “Comparative Example 1” are attached to a human body (arm) and a water-absorbing pad is put on the UHF band IC tag. The communicable distance at a wavelength of 0.315 m (frequency 953 MHz, output 200 mW) was measured using a passive development kit manufactured by Alien Technology.

Experiment 1: A UHF band IC tag for a urine sensor in a dry state was attached on the arm, and a water-absorbing pad in a dry state was put thereon. (Equivalent to drying)
Experiment 2: A wet UHF band IC tag for a urine sensor was affixed on the arm, and a water-absorbing pad in a dry state was placed thereon. (Equivalent to sweating)
Experiment 3: A wet UHF band IC tag for a urine sensor was affixed on the arm, and a water-absorbing pad in a water-absorbed state was covered thereon. (Equivalent to urination)
These results are shown in “Table 1” below.

  From Table 1, it can be seen that “Comparative Example 1” without the second loop portion for impedance mismatching can communicate with the reader even in Experiment 3 corresponding to urination. On the other hand, “Example 1” having the second loop part for impedance mismatching maintains communication during Experiment 2 corresponding to sweating, and only during Experiment 3 corresponding to urination. , It turns out that communication with the reader is disabled.

  UHF band IC tag for urine sensor and HF band IC tag for urine sensor and urination detection system using the urine sensor of the present invention are used in medical facilities, care facilities, elderly care facilities, etc., when urination is detected or abnormal. The position and state of a patient, a care recipient, etc. can be notified (reported) to medical personnel, caregivers, etc. through communication means such as a communication line.

DESCRIPTION OF SYMBOLS 1 UHF band IC tag for urine sensors 1b Loop part 1e Notch part 2 UHF band IC tag for urine sensors 2e 2nd loop part 2f Notch part 4 IC chip

The present invention relates to a urine sensor UHF (ultra high frequency) band IC tag and urine sensor HF (shortwave) band IC tag.

  2. Description of the Related Art Conventionally, a urination detection system using a non-contact type tag, label, or the like as a urine sensor has been operated in medical facilities, nursing facilities, elderly care facilities, and the like (see Patent Document 1).

  This urine detection system includes a disposable resonant tag or the like that is attached to the inner surface of a diaper or the like to become a urine sensor, a reader that communicates with the tag via an antenna module or the like disposed in the vicinity of the tag, and the reader When the urination is detected or abnormal, the position and state of the patient and the cared person are communicated from the control means to the medical personnel through the communication means such as a communication line. It is now notified (reported) to caregivers.

  In such a conventional urination detection system, detection of urine using a tag as a probe is performed according to the following principle. That is, in the case of a urination detection system using the resonance tag as a urine sensor, the resonance wavelength of the antenna changes due to urine or electrolyte entering between the winding antennas of the resonance tag. Yes. This makes it difficult to detect (read) a tag by a reader that scans by transmitting radio waves of a predetermined wavelength. Then, when the signal level of the resonance tag changes from detectable to undetectable (below a certain threshold), it is captured as the timing of urination, and a predetermined notification format (transmission of optical signal or audio signal or Signals such as cautions and warnings are sent according to notifications to the host server).

JP 2004-139545 A

  However, a urination detection system using the above-described resonance tag or the like as a urine sensor has a problem that there are many malfunctions (false reports). This malfunction is because urination is not occurring, but a signal that detects urination is emitted, and the cause is that the resonance tag used as a urine sensor is sensitive to moisture. This is probably because of this.

  In other words, the resonance tag has a steep and narrow optimum band (band peak) of the resonance wavelength. Therefore, if the resonance tag is placed in close contact with the periphery of the human body as a urine sensor, individual differences in physique, moisture in the skin (other than urine) The resonance wavelength easily shifts due to or sweating. Therefore, the conventional urination detection system that detects a change in the signal returned from the resonance tag may misunderstand that urination has occurred, and there is a demand for improvement.

The present invention has been made in view of such circumstances, provide the HF band IC tag for UHF band IC tag and urine sensor urine sensor capable of clearly identifying whether urine around there Is the purpose.

To achieve the above object, the present invention includes an IC chip (4), an antenna circuit for the UHF band (A), a part of the antenna circuit (A), the antenna circuit (A) to tune the resonance wavelength in the communication wavelength leader circuitry for loop impedance matching for communicating with the reader (1b) is provided, in a part of the circuit (1b) for the impedance matching, for the impedance matching The urine sensor UHF band IC tag (1) in which a notch (1e ) for electrically disconnecting the circuit (1b) is formed as a first gist (see FIG. 1 (a)) .

Furthermore, the present invention includes an IC chip (4), an antenna circuit for the UHF band (B), a part of the antenna circuit (B), the communication of the resonance wavelength of the antenna circuit (B) Leader a circuit for impedance matching to communicate with reader tuned to the wavelength (2b), the circuit for loop impedance mismatch and (2e) are provided, one circuit (2e) for the impedance mismatch The UHF band IC tag (2) for urine sensor in which the notch (2f ) for electrically disconnecting the impedance mismatching circuit (2e) is formed in the portion is a second gist [FIG. (See (b)) .

In order to achieve the above object, the present invention includes an IC chip (4), an antenna circuit for HF band (C), a part of the antenna circuit (C), the antenna circuit (C) Is provided with a loop-like impedance matching circuit (7d) for communicating with the reader by tuning the resonance wavelength of the reader to the communication wavelength of the reader, and this impedance matching circuit is part of the impedance matching circuit (7d). A urine sensor HF band IC tag (7) in which a notch (7b ) for electrically disconnecting the circuit (7d) is formed as a third gist (see FIG. 4) .

The present invention includes an IC chip (4), an antenna circuit for HF band (D), a part of the antenna circuit (D), the communication of the resonance wavelength of the antenna circuit (D) Leader a circuit for impedance matching to communicate with reader tuned to the wavelength (8e), the circuit for loop impedance mismatch and (8b) are provided, one circuit (8b) for the impedance mismatch The HF band IC tag (8) for urine sensor, characterized in that a notch (8d ) for electrically disconnecting the impedance mismatching circuit (8b) is formed in the portion. [See FIG. 5] .

  That is, the inventors of the present invention, as a urine sensor of a urination detection system, replaces a conventional resonance tag sensitive to moisture and the like with a UHF (band peak) having a relatively broad and wide optimum band (band peak). Ultra-high frequency: IC tag (UHF band IC tag) that communicates using a band of wavelengths 1 m to 10 cm, frequency 300 MHz to 3 GHz, and HF (short wave: wavelengths 100 m to 10 m, frequency 3 to 30 MHz) We focused on IC tags (HF band IC tags). However, these UHF band IC tags and HF band IC tags are not easily affected by moisture or sweating of the skin even if they are placed around the human body, but they do not shift the resonance wavelength even if urine or electrolytes adhere to them. If it is sufficient and used as it is, the detection of urination may be uncertain. Accordingly, the present inventors have conducted extensive research to improve the detection accuracy of these IC tags as urine sensors, and as a result, impedance matching portions (inductance circuits) of antenna circuits of UHF band and HF band IC tags. In addition, by providing a notch serving as a urine sensor part, a tag in which the resonance wavelength (bandwidth) fluctuates greatly depending on urine, electrolyte, or the like was successfully produced. By using this improved UHF band IC tag and HF band IC tag for urine sensors, a urination detection system that can reliably detect only urine, electrolytes, etc. without reacting to moisture other than urine is constructed. We have found out that we can do it and have reached the present invention.

As described above, the UHF band IC tag for urine sensor (1) according to the first aspect of the present invention and the HF band IC tag (7) for urine sensor according to the third aspect of the present invention have a loop of the antenna circuit (A, C) . A notch (1e, 7b) for electrically disconnecting the circuit (1b, 7d ) is formed in a part of the impedance matching circuit (1b, 7d) [FIG. 1 (a) and See FIG . For this reason, these IC tags for urine sensors (1 , 7 ) do not complete the loop impedance matching circuit ( 1b, 7d ) at the time of drying when urine, electrolyte, etc. are not sufficiently present in the surroundings. Can't communicate with the leader because they don't match. Then, only when the urine, the electrolyte, etc. enter the notches (1e, 7b) and are short-circuited, and the loop- like impedance matching circuits (1b, 7d) are in a conductive state, the resonance wavelength is only one. I can communicate with this reader. The result, the urine sensor UHF band IC tag (1) and HF band IC tag urine sensor (7), whether the communication is not performance or possible between the reader around the tag (1,7) It is possible to clearly identify whether urine, electrolytes, and the like are present.

In the UHF band IC tag (2) for urine sensor according to the second aspect of the present invention and the HF band IC tag (8) for urine sensor according to the fourth aspect, a part of the antenna circuit (B, D) a circuit for impedance matching (2b, 8e), separate circuits for loop impedance mismatch to this (2e, 8b) and is provided, some circuit (2e, 8b) for the impedance mismatch In addition, notches (2f, 8d) for electrically disconnecting the impedance mismatching circuits (2e, 8b ) are formed (see FIG. 1 (b) and FIG. 6) . Therefore, contrary to the urine sensor IC tags (1, 7) of the first and third aspects , the loop-shaped impedance mismatching circuit (when the urine, electrolyte, etc. are not sufficiently present in the surroundings) 2e, 8b ) is not completed and can communicate with the reader. Then, only when wet when urine, electrolyte, etc. enter the notch (2f, 8d) and are short-circuited, and the loop- shaped impedance mismatching circuit (2e, 8b) is in a completed (conductive) state. The resonant wavelength is greatly shifted and cannot communicate with this reader. As a result, the second aspect of the urine sensor UHF band IC tag (2) and the fourth aspect of the urine sensor HF band IC tag (8), depending on whether communication is possible or not the ability of the reader It is possible to clearly identify whether urine, electrolyte, or the like is present around the tag (2, 8) .

Furthermore, among the UHF band IC tag (1, 2) for urine sensor and the HF band IC tag (7, 8) for urine sensor of the present invention, the notch (1e, 2f, 7b, 8d) and its The region except the vicinity is sealed, and the upper surface of the notch (1e, 2f, 7b, 8d) is kept in a state where it is exposed to the outside or in a state where moisture can permeate. The quality can be easily guided to the notches (1e, 2f, 7b, 8d) serving as sensor portions.

The urination detection system using the urine sensor IC tags (1, 2, 7, 8) of the first to fourth aspects has a communication state with a reader for communicating with these urine sensors. When a communication is changed from being unable to communicate , or when changing from being able to communicate to being impossible to communicate , a predetermined urine detection signal is transmitted to the outside. Therefore, the urination detection system using the IC tags (1, 2, 7, 8) for the urine sensor according to the first to fourth aspects described above can prevent skin moisture and moisture even if the urine sensor is placed in close contact with the human body. no malfunction due to perspiration or the like, it is possible to ing to reliably detect urination only. Therefore, the IC tag (1, 2, 7, 8) for urine sensor according to the present invention can reduce the burden on medical personnel, caregivers, etc. by using the tag , and replace diapers that are not urinated. It is also possible to eliminate waste such as end.

(A), (b) is a top view which shows typically the example of a pattern of the antenna circuit of the UHF band IC tag for urine sensors in 1st Embodiment of this invention. It is explanatory drawing which shows the state which attached the urine sensor which consists of IC tag of 1st Embodiment to the diaper. (A), (b) is a top view which shows typically the modification of the pattern of the antenna circuit of the UHF band IC tag for urine sensors in 1st Embodiment, (c) is the antenna of a UHF band IC tag It is a top view which shows the reference example (conventional example) of the pattern of a circuit. (A) is a top view which shows typically the example of a pattern of the antenna circuit of the HF band IC tag for urine sensors in 2nd Embodiment of this invention, (b) is a top view which shows the state which masked except the sensor part It is. (A) is a top view which shows typically the example of a pattern of the antenna circuit of the HF band IC tag for urine sensors in 3rd Embodiment of this invention, (b) is a top view which shows the state which masked other than the sensor site | part It is. It is explanatory drawing which shows schematic structure (system image) of the urination detection system using the IC tag for urine sensors of this invention. In the said urination detection system , it is explanatory drawing which shows the example which attached the antenna module and the reader to the bed. In the said urination detection system , it is explanatory drawing which shows the example which attached the antenna module and the reader to the wheelchair. It is a graph which shows the frequency characteristic of the UHF band IC tag for urine sensors in the Example of this invention.

  Next, embodiments of the present invention will be described in detail with reference to the drawings.

The urination detection system using the IC tag for urine sensor of the present invention is supposed to be used in medical facilities, nursing facilities, etc., and UHF band IC tag 1 for urine sensor [FIG. 1 (a)] or The urine sensor UHF band IC tag 2 [FIG. 1 (b)] or the urine sensor HF band IC tag 7, 8 (see FIGS. 4 and 5) or the like is used as a diaper 5 as a urine sensor 10 as shown in FIG. The diaper 5 is worn by a patient or a care recipient in the facility. In the facility, as shown in FIG. 6, a plurality of sets of antenna modules 11 and readers 12 for communicating with the urine sensor 10 are disposed at necessary locations such as a hospital room and a living room, and are managed. A control unit 13 (including a recording unit and a notification unit) including a computer that integrates and controls the plurality of readers 12 is disposed in a nurse center on the side of the side.

First, a urine sensor (an IC tag for urine sensor of the present invention) that is worn by a patient, a care recipient, etc. will be described.
In the first embodiment of the present invention, the UHF band IC tag 1 having an antenna circuit (pattern A) as shown in FIG. 1A as the urine sensor UHF band IC tag to be attached to the diaper 5, or FIG. A UHF band IC tag 2 having an antenna circuit (pattern B) as shown in 1 (b) is used.

Will be described in detail. UHF band IC tag 1 having the antenna circuits A, antenna circuit A in the UHF band IC tag 1 [FIGS. 1 (a)] is a film-like or sheet-like base material 3 on the surface, for example, Using a printing method such as flexographic printing or screen printing, a conductive paste (conductive ink) is applied in a predetermined pattern, or a stamped metal foil is attached, evaporated, or etched. Is formed. The antenna circuitry A connects two antenna section 1a for transmitting and receiving radio waves of a predetermined wavelength, and 1a, the circuit of the loop-shaped impedance matching (hereinafter, "the impedance matching section" hereinafter) and 1b, and between them The impedance matching unit 1b is electrically disconnected from the IC chip connection unit 1d for mounting the IC chip 4 (two-dot chain line) and the impedance matching structure of the impedance matching unit 1b. A notch 1e is formed.

  The notch 1e is formed in a straight line parallel to each other, the pattern width (line width) of the parallel (opposite) portions is usually 0.1 mm or more, and the extension in the longitudinal direction of the opposite portions is usually 0.00. It is 1 mm or more. Between these, a groove (a portion having no antenna pattern) having a width of 0.1 mm or more is formed.

The antenna circuit A of the pattern is, the IC chip 4 is mounted on the IC chip connecting section 1d, the IC chip 4 and the antenna portion 1a, the bridge portion 1c, and, among the impedance matching section 1b, cut The region excluding the notch 1e and the vicinity thereof is sealed with a resin sheet, waterproof paper or the like, and the urine sensor UHF band IC tag 1 (urine sensor 10) is manufactured.

  Since the UHF band IC tag 1 for urine sensor is in close contact with the skin of a patient or a cared person, when used as the urine sensor 10, it is made of a hygroscopic material such as nonwoven fabric or paper. A bag (packaging) or a cover is placed (see FIG. 2). The bag or the upper paper made of the hygroscopic material also has an effect of guiding moisture such as urine and electrolyte to the unsealed notch 1e. Further, on the back side of the bag made of the hygroscopic material (the side of the base material 3 where the UHF band IC tag 1 is not formed), an adhesive or both sides for fixing the position of the urine sensor 10 is used. Tape etc. are arranged.

When using such a UHF band IC tag 1 as a urine sensor 10, as previously described, a part of the impedance matching coupling section 1b of the antenna circuit A, cut to electrically break the impedance matching portion 1b Since the notched portion 1e is formed, the impedance matching circuit (loop) is not completed when the urine or the electrolyte is not present in the surroundings, and the resonance wavelength of the antenna (band having a certain width) is not obtained. Is significantly shifted from the wavelength (predetermined) of the radio wave transmitted from the reader 12 or the like. Therefore, in this state, the urine sensor UHF band IC tag 1 cannot communicate with the reader 12 or the like.

  Only when the urine, electrolyte, etc. enter the groove formed in the notch 1e and this portion is short-circuited to complete the impedance matching circuit (loop), the resonance wavelength (band) of this antenna However, it is greatly shifted to a range where communication with radio waves of a specific wavelength transmitted from the reader 12 or the like is possible, and communication with the reader 12 or the like becomes possible. It has been confirmed that such a significant shift in the resonance wavelength (band) of the antenna does not occur due to a change in the dielectric constant around the antenna due to moisture or sweating of the skin.

  For these reasons, when the UHF band IC tag 1 is used as the urine sensor 10, it is not affected by skin moisture, sweating, or the like, and changes from a state in which communication with the reader 12 or the like is disabled to a state in which communication is possible. It is possible to clearly identify whether or not there is urine or electrolyte around the tag 1, that is, whether or not urination has occurred.

Such pattern of the antenna circuit urine sensor UHF band IC tag 1 having A is, by communicating with the reader 12 or the like is capable of changing from non Whereas that detects urination, Fig. 1 ( The urine sensor UHF band IC tag 2 having the antenna circuit (pattern B) as shown in b) detects urination by changing from being able to communicate with the reader 12 or the like to being impossible. The following describes UHF band IC tag 2 with antenna circuits B.

The UHF band IC tag 2 antenna circuit B [FIG. 1 (b)] is above UHF band IC tag 1 antenna circuits A differs, antenna circuit A equivalent to the impedance matching part (first loop portion ) was added to 2b, to impedance disturbs (mismatch of the antenna) loop impedance mismatch circuit for (hereinafter for, are referred to as "impedance mismatch portion") 2e is formed, the impedance mismatch A portion ( second loop portion ) 2e is provided with a notch 2f that electrically disconnects the impedance mismatching portion 2e.

In FIG. 1B, reference numeral 2a denotes an antenna portion, 2c denotes a bridge portion, and 2d denotes an IC chip connection portion. Further, the notch 2f is formed in a straight line parallel to each other like the notch 1e of the antenna circuit A, and the pattern width (line width) of the parallel (opposite) portions is usually 0.1 mm or more, The extension of the opposing portion in the longitudinal direction is usually 0.1 mm or more. Between these, a groove (a portion having no antenna pattern) having a width of 0.1 mm or more is formed.

  In the same manner as the UHF band IC tag 1, the notch 2f and the area except for the vicinity thereof are sealed with a resin sheet, waterproof paper, or the like, and the UHF band IC tag 2 for urine sensor (urine sensor 10) is manufactured. Is done. Further, a hygroscopic bag (packaging) or an upper paper is covered from above, and a double-sided tape or the like for fixing the position of the urine sensor 10 is disposed on the back side of the bag.

The UHF band IC tag 2 having such an antenna circuits B when used as a urine sensor 10, a portion of the antenna circuit B, the impedance inconsistency portion 2e provided on a part of the impedance mismatch portion 2e Since the notch portion 2f that electrically cuts off the loop of the impedance mismatching portion 2e is formed, the impedance mismatching circuit (second loop) is formed during drying when urine, electrolyte, etc. are not present in the surroundings. ) Is not completed, and the resonance wavelength (band) of the antenna is in a range where it can communicate with radio waves of a specific wavelength transmitted from the reader 12 or the like. Therefore, in this state, the urine sensor UHF band IC tag 2 can communicate with the reader 12 and the like.

  Then, only when the urine, electrolyte, etc. enter the groove formed in the notch 2f and this part is short-circuited to complete the impedance mismatching circuit (second loop), the resonant wavelength of this antenna The (band) greatly deviates from a range where communication with a radio wave of a specific wavelength transmitted from the reader or the like is made, and communication with the reader 12 or the like becomes impossible. In the UHF band IC tag 2 as well, as in the UHF band IC tag 1, such a significant shift in the resonance wavelength (band) of the antenna is caused by the dielectric constant around the antenna due to skin moisture, sweating, and the like. It turns out that change does not happen.

  As a result, even when the UHF band IC tag 2 is used as the urine sensor 10, by changing from a state in which communication with the reader 12 or the like is impossible without being influenced by moisture or sweating of the skin, Whether urination has occurred can be clearly identified.

In the above embodiment, the antenna circuit patterns for the UHF band IC tag are shown in FIGS. 1A and 1B in order to make the characteristics easy to understand. the connected by a bridge portion 1c, the antenna circuitry a of a simplified pattern is exemplified B, as the antenna circuit pattern for the UHF band, in addition to the rectangular (solid) form, a spiral coil and other There are various variations depending on the resonance theory employed, such as a special wave shape. In addition, the antenna circuit pattern actually manufactured takes into consideration various environmental factors such as the influence of moisture and sweat in the vicinity of the human body, the dielectric constant of the human body itself, the shielding effect, the optimum wavelength and output on the reader side, Prior adjustment (tuning of resonance wavelength, etc.) is performed so as to obtain optimum communication conditions when placed in the diaper. For this reason, the antenna circuit pattern may appear to be different from the antenna circuit pattern for the UHF band IC tag of the present invention [see the conventional IC tag 6 in FIG. 3 (c) as a reference example. ].

However, UHF band IC tag urine sensor of the present invention is not intended to be influenced by the overall shape of the antenna circuit pattern, part position for impedance matching of the antenna circuit (inductance section), electrically disconnected this a UHF band IC tag having the structure (shape) of a part of the antenna circuit, with comprises part position for impedance matching (inductance section), to another part of the antenna circuit, another part to disturb the impedance position is provided on the other part position, the UHF band IC tag electrically disconnected structures this (shape) is formed includes all.

For example, if antenna pattern underlying was FIG. 3 (c), a part of the impedance matching coupling section 1b of the antenna circuit, notches 1e electrically disconnected the impedance matching portion 1b is formed as a modification of the antenna circuits a [FIGS. 1 (a)] that there can be mentioned antenna circuits a 'having a pattern as shown in FIG. 3 (a). Even if such an antenna pattern is adopted in the UHF band IC tag 1 for the urine sensor, the urine sensor 10 has the same effect.

Further, for example, a part of the antenna circuit, the impedance inconsistency portion 2e provided on a part of the impedance mismatch portion 2e, notches 2f electrically disconnected the impedance mismatch portion 2e is formed and a modification of the antenna circuits B [FIG. 1 (b)] and, FIG. 3 (b) pattern antenna circuits B, such as' even when adopting the UHF band IC tag 2 for the urine sensor, The urine sensor 10 can achieve the same effect.

  In any case, the upper surface of the structure (notch shape) that electrically cuts off the annular portion is not sealed or laminated with a resin or the like in order to function as a urine sensor, or is exposed or urine It is kept in the state protected by the exterior which can permeate | transmit moisture.

  Next, a second embodiment in which the HF band IC tag 7 is used as a urine sensor worn by a patient, a cared person, or the like will be described. FIG. 4A is a plan view showing a pattern of the antenna circuit of the HF band IC tag for urine sensor in the second embodiment of the present invention, and FIG. It is the top view which shows the state before using.

As shown in FIG. 4A, the antenna circuit (pattern C) of the urine sensor HF band IC tag 7 according to this embodiment is formed by a printing method, die metal foil pasting, vapor deposition, etching, or the like. It is formed by being laminated on the surface of the film-like or sheet-like substrate 3. Then, this antenna circuits C, similarly to the antenna circuitry A of the UHF band IC tag 1 in the first embodiment, a portion of the coiled antenna portion 7a, impedance matching structure of the antenna portion 7a (impedance matching A cutout portion 7b for electrically disconnecting the portion 7d) and an IC chip connection portion 7c for mounting the IC chip 4 are formed.

The cutout portion 7b is formed in a groove shape that cuts off a part of the coil (impedance matching portion 7d) , and the width of the portion without the antenna pattern (groove width) is 0.05 mm or more. ing. Prior to use as the urine sensor 10, the region excluding the cutout portion 7 b serving as the sensor portion and the vicinity thereof is sealed with a resin sheet 9, waterproof paper, or the like as shown in FIG. Moreover, when using as the urine sensor 10, the bag (packaging) or upper paper which consists of a hygroscopic raw material, such as a nonwoven fabric and paper, is further covered from it (refer FIG. 2).

Even when the HF band IC tag 7 is used as the urine sensor 10, the impedance matching circuit ( 7d ) is provided in the dry state where urine, electrolyte, etc. are not present in the surroundings, like the UHF band IC tag 1 of the first embodiment. In this state, it is not completed and cannot communicate with the reader. Then, only when the urine, electrolyte, etc. enter the groove formed in the notch 7b and this part is short-circuited to complete the impedance matching circuit ( 7d ), the resonance wavelength (band) of this antenna However, communication can be performed with a significant shift to a range where communication with radio waves of a specific wavelength transmitted from the reader or the like is possible. Incidentally, in the case of the configuration of this embodiment, it has been observed that the resonance frequency 44 MHz during drying shifts to 13.8 MHz when wet.

  Therefore, the HF band IC tag 7 in this embodiment does not depend on skin moisture, sweating, or the like, and changes from a state where communication with a reader or the like is impossible to a state where communication with a reader or the like is possible. It is possible to clearly identify whether or not an electrolyte or the like is present, that is, whether or not urination has occurred.

  Next, a third embodiment in which the HF band IC tag 8 is used as a urine sensor worn by a patient, a cared person, or the like will be described. FIG. 5A is a plan view showing an antenna circuit pattern of the HF band IC tag for the urine sensor according to the third embodiment of the present invention, and FIG. It is the top view which shows the state before using.

As shown in FIG. 5A, the antenna circuit (pattern D) of the HF sensor IC tag 8 for the urine sensor in this embodiment is formed by a printing method, pasting of a metal foil that has been punched, vapor deposition, etching, or the like. It is formed by being laminated on the surface of the film-like or sheet-like substrate 3. Then, this antenna circuits D, similarly to the antenna circuitry B of UHF band IC tag 2 in the first embodiment, the antenna unit disturb the impedance of 8a (for inconsistent) impedance for mismatched portions (second 2 loop portion) 8b is formed in a part of the impedance mismatch portion 8b, notches 8d electrically disconnected the impedance mismatch portion 8b is provided. In FIG. 8, reference numeral 8e denotes an impedance matching circuit (first loop section).

The cutout portion 8d is formed in a straight line parallel to each other like the cutout portion of the antenna circuit B, and the pattern width (line width) of the parallel (opposite) portion is usually 0.1 mm or more, and the opposite portion. The extension in the longitudinal direction of the part is usually 0.1 mm or more. Between these, a groove (a portion having no antenna pattern) having a width of 0.05 mm or more is formed.

  Further, as in the case of the HF band IC tag 7, as shown in FIG. 5 (b), the region excluding the notch 8d and the vicinity thereof is sealed with a resin sheet 9, waterproof paper or the like, and the HF band IC tag for urine sensor. 8 (urine sensor 10) is produced. In addition, the bag (packaging) or the upper paper which has a hygroscopic property is further covered from the top, and the point that the double-sided tape etc. for fixing the position of the urine sensor 10 etc. is arrange | positioned on the back surface side of this bag is also the same. Yes (see FIG. 2).

When the HF band IC tag 8 is used as the urine sensor 10, like the UHF band IC tag 2 of the first embodiment, the circuit for impedance mismatching ( 8b ) at the time of drying when urine, electrolyte, etc. are not present in the surroundings. Is not completed, and the resonance wavelength (band) of the antenna is in a range in which communication with radio waves of a specific wavelength transmitted from a reader or the like is possible. Therefore, in this state, the HF sensor IC tag 8 for urine sensor can communicate with a reader or the like.

Then, only when the urine, electrolyte, etc. enter the groove formed in the notch 8d and this part is short-circuited to complete the impedance mismatching circuit ( 8b ), the resonance wavelength (band) of this antenna is obtained. ) Greatly deviates from the range capable of communicating with radio waves of a specific wavelength transmitted from the reader or the like, and communication with the reader or the like becomes impossible. In the case of the configuration of this embodiment, it has been observed that the resonance frequency during drying (usually about 13.2 to 20 MHz) shifts to 100 MHz or more when wet and communication becomes impossible.

  Therefore, even when the HF band IC tag 8 is used as the urine sensor 10, urination is not affected by moisture or sweating of the skin, but changes from a state where communication with a reader or the like is disabled to a state where urination is impossible. You can clearly identify whether it happened.

  Next, the configuration of the entire urination detection system using the urine sensor composed of the UHF band IC tag or the HF band IC tag will be described.

As described above, the urination detection system using the IC tag for urine sensor according to the present invention has antenna modules 11 and readers 12 arranged at a plurality of locations in a facility, nurse centers and the like as shown in FIG. It is mainly composed of a control means 13 composed of a computer or the like arranged. These devices are connected to each other via a wired LAN (solid line) or a wireless LAN (one-dot chain line), and a network in which signals (information) can be exchanged with each other is formed.

  The control means 13 has both a function (recording means) for recording signal information of the urine sensor 10 and a function (notification means) for transmitting detection of urine to the outside. Moreover, the symbol R in the figure is a router (wireless LAN router), the symbol C is a coordinator (edge router), and the symbol S is according to the content (information) of the urine detection signal transmitted to the outside. A server (SIP server or the like) having a function of appropriately selecting the delivery destination and delivery contents (voice information, character information, etc.), and a symbol M indicates a portable information terminal such as a PHS or a mobile phone.

  In such a urine detection system, each reader 12 captures a change in the communication state of the urine sensor 10 (from communication disabled to communication enabled or from communication enabled to communication disabled). A radio wave having a predetermined wavelength corresponding to (band) is transmitted at predetermined time intervals, and a timer circuit used for the radio wave is provided.

  The control means 13 is configured to send a predetermined urine detection signal to the outside when the communication state between the reader 12 and the urine sensor 10 changes. The signal information of the urine sensor 10 (the position and number of times, ID information for identifying the person wearing the person, etc.) recorded in the computer or the like of the control means 13 is added to the detection signal and transmitted. ing.

  The antenna module 11 and the reader 12 will be described in more detail. For example, when trying to detect urination of a patient or a cared person who cannot move on a bed, as shown in FIG. A thin antenna module 11 having a relatively wide mat shape or sheet shape is placed on a mattress or the like. A urine sensor 10 attached to a diaper 5 worn by a patient lying on the bed, a cared person, or the like by installing a reader 12 in the vicinity of the reader 12 and connecting them by wiring or the like (see FIG. 2). ) Signal can be detected.

As described above, when receiving a signal from the urine sensor 10 on a fixed object such as a bed, it is not necessary to always specify the position of the urine sensor 10 before urination. returns a signal only when the urine detection, FIG. 1 UHF band IC tag 1 having an antenna circuits a as (a), the or, HF band with antenna circuits C as shown in FIG. 4 (a) An IC tag 7 is preferably used. When communication with the reader 12 becomes possible (when urine is detected), ID information (RFID information) written in advance on the IC chip is transmitted from the IC tags 1 and 7 to the reader 12. The room number, the bed (patient) number, etc. in which the urine sensor 10 is used can be specified only by specifying the installation location of the router R connected to the reader 12 that has received the signal. Of course, in such a case, the UHF band IC tag 2 or the HF band IC tag 8 that returns a signal when urine is not detected may be used.

  Further, for example, when detecting urination of a patient who is moving in a wheelchair or a cared person, as shown in FIG. 8, the antenna module 11 in a mat shape or a sheet shape is provided on the seat surface of the wheelchair. The reader 12 is installed in the vicinity thereof, and these are connected by wiring or the like. If necessary, the antenna module 11 can be installed or built under the seat surface of the wheelchair (back side) or the backrest.

In addition, when trying to receive the signal of the urine sensor 10 attached to the diaper 5 worn by a patient or a cared person who can move independently as described above, the position of the urine sensor 10 even before urination is received. It is preferable to always be able to specify. Therefore, the urine sensor 10 returns a signal when not detecting urine, Figure 1 UHF band IC tag 2 including the antenna circuits B as shown in (b), or, as shown in FIG. 4 (b) HF band IC tag 8 having an antenna circuits D are preferably used. Since the ID information written in advance on the IC chips of the IC tags 2 and 8 is transmitted to the reader 12 at predetermined time intervals, only the installation location of the router R connected to the reader 12 that has received this signal is specified. Thus, it is possible to specify the area where the urine sensor 10 is located. Of course, the UHF band IC tag 1 or the HF band IC tag 7 that returns a signal only at the time of urine detection can also be used. In that case, the area where urination occurred and the subsequent action can be grasped.

As described above, the urination detection system using the IC tag for urine sensor of the present invention uses the UHF band IC tags 1 and 2 or the HF band IC tags 7 and 8 as the urine sensor 10. Even if 10 is placed in close contact with the human body, there is no malfunction due to skin moisture or sweating, and only urination can be reliably detected. This reliable urination information can reduce the burden on medical personnel and caregivers who manage facilities and the like, and can also eliminate waste such as replacing diapers that have not been urinated.

  Moreover, since this urination detection system can acquire urination information in real time, it becomes possible to respond quickly according to the states of individual patients, care recipients, and the like. In addition, the number of urinations and patterns of individual patients and care recipients can be easily grasped, and PHS, mobile phones and personal digital assistants can be contacted in advance according to the information. Detailed information can be transmitted through such means.

  Next, examples will be described together with comparative examples. However, the present invention is not limited to the following examples.

In this embodiment, the UHF band IC tag for urine sensor, which has been tuned so as to obtain the optimum communication condition when placed in a diaper, is described in FIG. 3B. UHF band to produce an IC tag, UHF band IC tag impedance inconsistent portion 2e in the antenna circuit (and notches 2f) is not provided [Fig of adopting the antenna circuits B ' "example 1" 3 (c)] as “Comparative Example 1”, the wavelength characteristics (frequency characteristics, degree of resonance wavelength shift due to moisture) and the communicable distance (cm) during drying and after wetting with water Compared.

First, in both Example 1 and Comparative Example 1, an antenna circuit was produced on the substrate 3 by a flexographic printing method. As described above, two types of UHF band IC tag antennas were produced under the same conditions except that the circuit patterns were different.

(Base material)
PET film Lumirror (registered trademark) U34 manufactured by Toray Industries, Inc.
Thickness -75μm Corona treatment on both sides (conductive ink)
InkTec Co. , Ltd., Ltd. TEC-PR-030, manufactured by Korea (Korea)
Component Silver particle-average particle diameter: 20 to 50 nm Content: 40 wt% or less
Binder (organic complex compound) content -35 wt% or less
2-Propanol-10wt% or less Viscosity -500mPa · s

(Flexo printing machine)
FC-33S manufactured by MT Tech
(Flexographic printing plate)
Komura Tech Co., Ltd. Plate thickness-2.25mm
Ink holding amount of ink holding portion for antenna portion printing: 0.1 to 1.5 ml / m ²
Ink holding amount of ink holding part for IC chip connection part printing: ^{2 to 3} ml / m ²

<Creation of antenna circuit pattern>
[Antenna Circuit of Example 1]
The conductive ink was printed and transferred onto a PET substrate by the above flexographic printing machine and dried at 120 ° C. for 2 minutes, and then an antenna circuit B ′ for Example 1 was obtained. The antenna circuit pattern is similar to FIG. 3 (b) as described above, a part of the pattern, the impedance inconsistency portion 2e provided on a part of the impedance mismatch portion 2e, the impedance A notch portion 2f that electrically disconnects the mismatching portion 2e is formed. The line width 1 mm of the parallel (opposite) portions in the notch 2 f, the width of the groove (portion where there is no antenna pattern) between them is 1 mm, and the extension in the longitudinal direction of the facing portion is 6 mm.

[Antenna Circuit of Comparative Example 1]
An antenna circuit for Comparative Example 1 was obtained in the same manner as in Example 1 except that the antenna circuit pattern was different [conventional example in FIG. 3 (c)] .

Next, a UHF band IC tag was produced using the obtained IC tag antenna circuit.
<Production of UHF band IC tag>
An IC strap (EPC GenII Higgs3) manufactured by Alien Technology is mounted on the IC chip connecting portion of the IC tag antenna circuit of Example 1 and Comparative Example 1 above, and the waterproofing that protects the IC strap and the vicinity thereof is mounted thereon. Paper (protective paper) was laminated (inlet) to produce UHF band IC tags of Example 1 and Comparative Example 1. Note that most of the antenna circuit pattern (including the cutout portion 2f of the impedance mismatching portion 2e ) is not covered with the waterproof paper and is exposed. Each UHF band IC tag has a resonance wavelength (band) at the time of drying adjusted to about 0.33 to 0.3 m (frequency: 900 MHz to 1 GHz) in consideration of attachment to a human body.

First, using the obtained UHF band IC tags “Example 1” and “Comparative Example 1” for urine sensors, wavelength characteristics (frequency characteristics) during drying and after wetting with water were measured.
<Measurement of wavelength characteristics (frequency characteristics)>
With the test UHF band IC tag attached to the human body (arm skin), frequency characteristics were measured using a Voyantec tag tester (Field Engineer Accessory Kit and Reference Tag). The term “when wet” refers to a measurement that was applied to the arm while wet. In addition, “when dry” refers to what was measured after being attached to the arm in a state where it was not wet with water, but at the time of drying, there was no difference between Example 1 and Comparative Example 1, and the same result was obtained. Expressed as an experimental blank (when dry). The results are shown in the graph of “FIG. 9”.

From this graph, it can be seen that the UHF band IC tag for urine sensor optimized for attachment to the human body has a communication distance of about 4 to 6 m in the blank (when dry). Then, the impedance inconsistency unit is not "Comparative Example 1", when wet, it can be seen that the half of the communicable distance of the blank (dry). However, no shift in resonance wavelength is observed. In contrast, "Example 1" having a cutout portion 2f to the impedance inconsistent portion 2e, at the time of wet, becomes about 1/4 of the communicable distance of the blank (dry), the resonance wavelength also shifts I understand that

<Measurement of communicable distance>
Next, as a more practical test, the test UHF band IC tags of “Example 1” and “Comparative Example 1” are attached to a human body (arm) and a water-absorbing pad is put on the UHF band IC tag. The communicable distance at a wavelength of 0.315 m (frequency 953 MHz, output 200 mW) was measured using a passive development kit manufactured by Alien Technology.

Experiment 1: A UHF band IC tag for a urine sensor in a dry state was attached on the arm, and a water-absorbing pad in a dry state was put thereon. (Equivalent to drying)
Experiment 2: A wet UHF band IC tag for a urine sensor was affixed on the arm, and a water-absorbing pad in a dry state was placed thereon. (Equivalent to sweating)
Experiment 3: A wet UHF band IC tag for a urine sensor was affixed on the arm, and a water-absorbing pad in a water-absorbed state was covered thereon. (Equivalent to urination)
These results are shown in “Table 1” below.

From Table 1, it can be seen that the IC tag of “Comparative Example 1” having no impedance mismatching circuit can communicate with the reader even in Experiment 3 corresponding to urination. In contrast, IC tag "Example 1" having a cutout portion 2f to the impedance inconsistent portion 2e, the time of experiment 2, which corresponds to perspiration maintains a capable communication, Experiment 3, which corresponds to the urination It can be seen that communication with the reader is disabled only during this time.

Urine UHF band IC tag sensor and urine HF band IC tag for the sensor of the present invention, the accurate detection of urination, medical facilities and nursing care facilities, in the elderly care facilities, and the like, the detection time and abnormal or the like of urination, the position and condition of such patients and the care, through communication means such as a communication line, medical personnel and caregivers can accurately known Rukoto.

DESCRIPTION OF SYMBOLS 1 UHF band IC tag for urine sensors 1b Impedance matching part 1e Notch part 2 UHF band IC tag for urine sensors
2b impedance matching part 2e impedance mismatching part 2f notch part 4 IC chip
HF band IC tag for 7 urine sensor
7b notch
7d impedance matching section
HF band IC tag for 8 urine sensors
8b impedance mismatching part
8d cutout
8e impedance matching section
A, B, C, D antenna circuit

In order to achieve the above object, the present invention includes an IC chip (4) and an antenna circuit (A) for UHF band, and is attached to the inner surface of a diaper to detect urine and electrolyte in the diaper. a UHF band IC tag urine sensor to be used, a part of the antenna circuit (a), b for communicating with reader tuned to the communication wavelength of the resonant wavelength leader of the antenna circuit (a) loop portion for impedance matching (1b) is provided, in a part of the loop portion (1b), the loop portion (1b) notches for electrically sever (1e) is formed, urine and electrolytes At the time of drying that does not exist in the surroundings, the loop portion (1b) for impedance matching is not conducted by the cutout portion (1e), and the resonance wavelength does not match the communication wavelength, so that communication with the reader is disabled. Have In both cases, when the urine and the electrolyte are present in the surrounding area, the urine and the electrolyte enter the cutout portion (1e) to cause a short circuit, whereby the impedance matching loop portion (1b) conducts and the resonance occurs. wavelength matches the communication wavelength, and the leader and ing the communicable state urine sensor UHF band IC tag (1) the first aspect [see FIGS. 1 (a)].

The present invention further includes an IC chip (4) and a UHF band antenna circuit (B), which is attached to the inner surface of the diaper and used for detecting urine and electrolyte in the diaper. A UHF band IC tag having a first impedance matching for communicating with a reader by tuning a resonance wavelength of the antenna circuit (B) to a communication wavelength of the reader in a part of the antenna circuit (B) . loop portion (2b), and is transported impedance second loop portion for mismatch and (2e) is provided in a portion of the second loop portion (2e), the second loop portion (2e) A notch (2f) that is electrically disconnected is formed, and when the urine and electrolyte are not present in the surroundings, the second loop (2e) for impedance mismatching is conducted by the notch (2f). The resonance wavelength is a communication wave Therefore, when the urine and the electrolyte are present in the surroundings, the urine and the electrolyte enter the notch (2f) and a short circuit occurs. the second loop portion for the impedance mismatch the (2e) becomes conductive the resonance wavelength shifts from the communication wavelength, the leader and incommunicable state the name Ru urine sensor UHF band IC tag (2) the It is set as the summary of 2 [refer FIG.1 (b)].

In order to achieve the above object, the present invention includes an IC chip (4) and an antenna circuit (C) for HF band, and is attached to the inner surface of the diaper to detect urine and electrolyte in the diaper. The HF band IC tag for a urine sensor used in the invention is for communicating with a reader by tuning the resonance wavelength of the antenna circuit (C) to the communication wavelength of the reader in a part of the antenna circuit (C) . impedance loop portion for matching (7d) is provided, in a part of the loop portion (7d), notches electrically disconnected the loop portion (7d) (7b) is formed, urine and electrolytes When drying is not present in the surroundings, the impedance matching loop portion (7d) is not conducted by the cutout portion (7b), and the resonance wavelength does not match the communication wavelength, so that communication with the reader is disabled. ing In both cases, when the urine and the electrolyte are present in the surroundings, the urine and the electrolyte enter the cutout portion (7b) to cause a short circuit, whereby the impedance matching loop portion (7d) conducts and the resonance occurs. wavelength matches the communication wavelength, and HF band IC tag urine sensor and can communicate with the reader ing (7) a third aspect [see Figure 4].

The present invention includes an IC chip (4) and an antenna circuit (D) for HF band, which is attached to the inner surface of a diaper and used for detecting urine and electrolyte in the diaper. A first HF band IC tag for impedance matching for communicating with a reader by tuning a resonance wavelength of the antenna circuit (D) to a communication wavelength of the reader in a part of the antenna circuit (D) . loop portion and (8e), impedance second loop portion for mismatch and (8b) is provided in a portion of the second loop portion (8b), the second loop portion (8b) A notch (8d) that is electrically disconnected is formed, and when the urine and electrolyte are not present in the surroundings, the second loop (8b) for impedance mismatching is conducted by the notch (8d). The resonance wavelength is the communication wavelength. Therefore, when the urine and the electrolyte are present in the surroundings, the urine and the electrolyte enter the notch (8d) and a short circuit occurs. the second loop portion for impedance mismatch (8b) conducting shifts the resonance wavelength from the communication wavelength, the leader and incommunicable state the name Ru HF band IC tag urine sensor (8) a fourth [See FIG. 5].

Thus, the UHF band IC tag for urine sensor (1) according to the first aspect of the present invention and the HF band IC tag for urine sensor according to the third aspect (7) of the antenna circuit (A, C) are provided. Notch portions (1e, 7b) for electrically disconnecting the loop portions (1b, 7d) are formed in part of the impedance matching loop portions (1b, 7d) [FIG. 1 (a) and See FIG. Therefore, these urine sensor IC tag (1,7), at the time of drying the urine and electrolytes are not present enough around the loop portion for the upper hear impedance matching (1b, 7d) is not completed (conducting) Because the resonance wavelengths do not match, it cannot communicate with the reader. Then, the cutout portion is urine and electrolytes (1e, 7b) shorted enters the loop portion for the upper hear impedance matching (1b, 7d) is only wet with the conductive state, the resonance wavelength is one I can communicate with this reader. As a result, the UHF band IC tag (1) for urine sensor and the HF band IC tag (7) for urine sensor have urine around the tag (1, 7) depending on whether communication with the reader is possible or not. Whether or not an electrolyte is present can be clearly identified.

In the UHF band IC tag (2) for urine sensor according to the second aspect of the present invention and the HF band IC tag (8) for urine sensor according to the fourth aspect, a part of the antenna circuit (B, D) the first loop portion for impedance matching (2b, 8e) and, this second loop portion for impedance mismatch (2e, 8b) and is provided separately from, the second loop portion (2e , 8b) are formed with notches (2f, 8d) for electrically disconnecting the second loop portions (2e, 8b) (see FIGS. 1 (b) and 6). . Therefore, contrary to the first and third aspect of the urine sensor IC tag (1,7), urine and electrolyte at the time of drying is not sufficiently present around the upper heard impedance mismatch for the second of Since the loop part (2e, 8b) is not completed (conductive) , it can communicate with the reader. Then, wet urine and electrolyte shorted enters to the cutout portion (2f, 8d), a second loop portion for the upper listening impedance mismatch (2e, 8b) has become complete (conduction state) Only at times does the resonant wavelength shift significantly and cannot communicate with this reader. As a result, the urine sensor UHF band IC tag (2) according to the second aspect and the HF band IC tag (8) for the urine sensor according to the fourth aspect also depend on whether or not communication with the reader is possible. Whether or not urine or electrolyte is present around the tag (2, 8) can be clearly identified.

Furthermore, among the UHF band IC tag (1, 2) for urine sensor and the HF band IC tag (7, 8) for urine sensor of the present invention, the notch (1e, 2f, 7b, 8d) and its The region excluding the vicinity is sealed, and the back surface of the IC tag opposite to the surface on which the notches (1e, 2f, 7b, 8d ) are formed is attached to the inner surface of the diaper, and the notches (1e , 2f, 7b, 8d) are those kept in state shape exposed to the inside of the diaper, the urine and electrolyte, notches (1e serving as a sensor unit, 2f, 7b, 8d) facilitates Can lead to.

The UHF band IC tag 1 having the antenna circuit A will be described in detail. The antenna circuit A [FIG. 1 (a)] of the UHF band IC tag 1 is formed on the surface of the substrate 3 in the form of a film or sheet, for example, Using a printing method such as flexographic printing or screen printing, conductive paste (conductive ink) is applied in a predetermined pattern, or it is formed using a method such as attaching a die-cut metal foil, vapor deposition, or etching. Has been. The antenna circuit A is composed of two antenna portions 1a for transmitting and receiving radio waves of a predetermined wavelength, and 1a, and a loop portion 1b for impedance matching, a bridge portion 1c for connecting them, said loop portion 1b Are formed with an IC chip connecting portion 1d for mounting the IC chip 4 (two-dot chain line) and a notch portion 1e for electrically disconnecting the impedance matching structure of the loop portion 1b.

In the antenna circuit A having the above pattern, the IC chip 4 is mounted on the IC chip connecting portion 1d, and the cut-out portion of the IC chip 4, the antenna portion 1a, the bridge portion 1c, and the loop portion 1b is provided. The region excluding 1e and the vicinity thereof is sealed with a resin sheet, waterproof paper, or the like, and the urine sensor UHF band IC tag 1 (urine sensor 10) is manufactured.

When such a UHF band IC tag 1 is used as the urine sensor 10, as described above, the loop portion 1b is electrically disconnected from a part of the impedance matching loop portion 1b of the antenna circuit A. Since the cutout portion 1e is formed, the impedance matching circuit (loop portion 1b ) is not completed at the time of drying when urine or electrolyte is not present in the surroundings, and the resonance wavelength of the antenna (having a certain width) Band) is significantly shifted from the wavelength (predetermined) of the radio wave transmitted from the reader 12 or the like. Therefore, in this state, the urine sensor UHF band IC tag 1 cannot communicate with the reader 12 or the like.

Only when the urine, electrolyte, etc. enter the groove formed in the notch 1e and this part is short-circuited to complete the impedance matching circuit (loop part 1b ), the resonance wavelength of this antenna ( Band) is greatly shifted to a range in which radio waves of a specific wavelength transmitted from the reader 12 and the like can be communicated, and communication with the reader 12 and the like becomes possible. It has been confirmed that such a significant shift in the resonance wavelength (band) of the antenna does not occur due to a change in the dielectric constant around the antenna due to moisture or sweating of the skin.

The antenna circuit B [FIG. 1B] of the UHF band IC tag 2 is different from the antenna circuit A of the UHF band IC tag 1 in that an impedance matching section (first loop section) 2b equivalent to the antenna circuit A is provided. in addition, the impedance of the antenna disturbing (to misalignment) second and loop portions 2 e is formed for a part of the upper Symbol second loop portions 2 e, the second loop portion 2e The notch portion 2f that is electrically disconnected is provided.

When using the UHF band IC tag 2 having such an antenna circuit B as urine sensor 10, a portion of the antenna circuit B, the second loop portion 2e for impedance mismatch is provided, the second loop portion 2e Is formed with a cutout portion 2f for electrically disconnecting the loop of the second loop portion 2e, so that the circuit for impedance mismatching can be used when the urine or electrolyte is not present in the surroundings. The (second loop portion 2e ) is not completed, and the resonance wavelength (band) of the antenna is in a range where it can communicate with a radio wave having a specific wavelength transmitted from the reader 12 or the like. Therefore, in this state, the urine sensor UHF band IC tag 2 can communicate with the reader 12 and the like.

Then, urine, electrolyte or the like enters the groove formed in the notch 2f and this portion is short-circuited, and only when the antenna is wet when the impedance mismatching circuit (second loop portion 2e ) is completed. The resonance wavelength (band) greatly deviates from the range in which the radio wave having a specific wavelength transmitted from the reader or the like can communicate, and communication with the reader 12 or the like becomes impossible. In the UHF band IC tag 2 as well, as in the UHF band IC tag 1, such a significant shift in the resonance wavelength (band) of the antenna is caused by the dielectric constant around the antenna due to skin moisture, sweating, and the like. It turns out that change does not happen.

In the above embodiment, the left and right antenna portions 1a and 1a are connected to each other as a bridge portion 1c as shown in FIG. 1 (a ) in order to facilitate understanding of the characteristics of the antenna circuit pattern for the UHF band IC tag. The antenna circuits A and B having a simplified pattern connected to each other are illustrated. However, as the pattern of the antenna portions 1a and 2a for the UHF band, in addition to the rectangular shape as shown in FIG. There are various variations depending on the resonance theory employed , such as spiral coil shapes (7a, 8a) such as. In addition, the pattern of the antenna parts 1a and 2a actually produced has various environmental factors such as the influence of moisture and sweat in the vicinity of the human body, the dielectric constant of the human body itself, the shielding effect, the optimum wavelength and output on the reader side, etc. Considering this, prior adjustment (tuning of the resonance wavelength, etc.) is performed so as to obtain optimal communication conditions when placed in the diaper. Therefore, the pattern of the entire antenna circuit, seemingly impression is, as Reference Example in which case there is the antenna circuitry and seems to be different for UHF band IC tag of the present invention described in FIG. 1, FIG. 3 (c) See the conventional IC tag 6].

However, the UHF band IC tag for urine sensor of the present invention does not depend on the overall shape of the antenna circuit pattern, but electrically disconnects it from an annular portion (inductance portion) for impedance matching of the antenna circuit. And a UHF band IC tag having a structure (shape) to be provided, an annular portion (inductance portion) for impedance matching in a part of the antenna circuit, and another annular portion for disturbing impedance in another portion of the antenna circuit A UHF band IC tag in which a portion is provided and a structure (shape) for electrically disconnecting the other annular portion is formed is included.

For example, when the basic antenna pattern is shown in FIG. 3C, a notch portion 1e for electrically disconnecting the loop portion 1b is formed in a part of the impedance matching loop portion 1b of the antenna circuit. As a modification of the antenna circuit A [FIG. 1 (a)], an antenna circuit A ′ having a pattern as shown in FIG. 3 (a) can be given. Even if such an antenna pattern is adopted in the UHF band IC tag 1 for the urine sensor, the urine sensor 10 has the same effect.

Further, for example, a part of the antenna circuit, the second loop portion 2e for impedance mismatch is provided in a portion of the second loop portions 2e, notch electrically disconnected the second loop portions 2e As a modification of the antenna circuit B in which the portion 2f is formed [FIG. 1 (b)], an antenna circuit B ′ having a pattern as shown in FIG. 3 (b) is employed in the UHF band IC tag 2 for the urine sensor. Even in this case, the urine sensor 10 can achieve the same effect.

As shown in FIG. 4A, the antenna circuit (pattern C) of the urine sensor HF band IC tag 7 according to this embodiment is formed by a printing method, die metal foil pasting, vapor deposition, etching, or the like. It is formed by being laminated on the surface of the film-like or sheet-like substrate 3. The antenna circuit C includes an impedance matching structure ( loop part 7d) of the antenna part 7a in a part of the coiled antenna part 7a, as in the antenna circuit A of the UHF band IC tag 1 in the first embodiment. A cutout portion 7b for electrically disconnecting the IC chip 4 and an IC chip connection portion 7c for mounting the IC chip 4 are formed.

The cutout portion 7b is formed in a groove shape that cuts off a part of the coil ( loop portion 7d), and the width (groove width) of the portion without the antenna pattern is 0.05 mm or more. Yes. Prior to use as the urine sensor 10, the region excluding the cutout portion 7 b serving as the sensor portion and the vicinity thereof is sealed with a resin sheet 9, waterproof paper, or the like as shown in FIG. Moreover, when using as the urine sensor 10, the bag (packaging) or upper paper which consists of a hygroscopic raw material, such as a nonwoven fabric and paper, is further covered from it (refer FIG. 2).

When the HF band IC tag 7 is used as the urine sensor 10, as in the case of the UHF band IC tag 1 of the first embodiment, an impedance matching circuit ( loop portion 7d) is used at the time of drying when urine, electrolyte, etc. are not present in the surroundings. ) Is not completed, and in this state, communication with a reader or the like is not possible. Then, only when the urine, the electrolyte, etc. enter the groove formed in the notch portion 7b and this portion is short-circuited to complete the impedance matching circuit ( loop portion 7d), the resonance wavelength of this antenna ( The bandwidth is greatly shifted to a range in which communication with a radio wave of a specific wavelength transmitted from the reader or the like is possible. Incidentally, in the case of the configuration of this embodiment, it has been observed that the resonance frequency 44 MHz during drying shifts to 13.8 MHz when wet.

As shown in FIG. 5A, the antenna circuit (pattern D) of the HF sensor IC tag 8 for the urine sensor in this embodiment is formed by a printing method, pasting of a metal foil that has been punched, vapor deposition, etching, or the like. It is formed by being laminated on the surface of the film-like or sheet-like substrate 3. The antenna circuit D includes a second loop for impedance mismatching for disturbing (making mismatching) the impedance of the antenna unit 8a, like the antenna circuit B of the UHF band IC tag 2 in the first embodiment. part 8 b are formed, a portion of the second loop portions 8b, notches 8d electrically disconnected the second loop portion 8b is provided. In FIG. 8, reference numeral 8e denotes an impedance matching circuit (first loop section).

When the HF band IC tag 8 is used as the urine sensor 10, as in the UHF band IC tag 2 of the first embodiment, the second loop portion for impedance mismatching at the time of drying when urine, electrolyte, etc. are not present in the surroundings. 8b is not completed, and the resonance wavelength (band) of the antenna is in a range where it can communicate with radio waves of a specific wavelength transmitted from a reader or the like. Therefore, in this state, the HF sensor IC tag 8 for urine sensor can communicate with a reader or the like.

Then, only when the urine, electrolyte, etc. enter the groove formed in the notch 8d and this portion is short-circuited to complete the second loop portion 8b for impedance mismatching, the resonance wavelength of this antenna is reduced. The (band) greatly deviates from a range in which communication with a radio wave of a specific wavelength transmitted from the reader or the like is made, and communication with the reader or the like becomes impossible. In the case of the configuration of this embodiment, it has been observed that the resonance frequency during drying (usually about 13.2 to 20 MHz) shifts to 100 MHz or more when wet and communication becomes impossible.

In this embodiment, the UHF band IC tag for urine sensor, which has been tuned so as to obtain the optimum communication condition when placed in a diaper, is described in FIG. 3B. The UHF band IC tag of the “embodiment 1” employing the antenna circuit B ′ is manufactured, and the UHF band in which the second loop portion 2e (and notch portion 2f) for impedance mismatching is not provided in the antenna circuit With the IC tag [see FIG. 3 (c)] as “Comparative Example 1”, wavelength characteristics (frequency characteristics, degree of resonance wavelength shift due to moisture) and communicable distance during drying and after wetting with water (Cm) was compared.

<Creation of antenna circuit pattern>
[Antenna Circuit of Example 1]
The conductive ink was printed and transferred onto a PET substrate by the above flexographic printing machine and dried at 120 ° C. for 2 minutes, and then an antenna circuit B ′ for Example 1 was obtained. The antenna circuit pattern is similar to FIG. 3 (b) as described above, a part of the pattern, is provided a second loop portion 2e for impedance mismatch, the second loop portion 2e one A cutout portion 2f that electrically disconnects the second loop portion 2e is formed in the portion. The line width 1 mm of the parallel (opposite) portions in the notch 2 f, the width of the groove (portion where there is no antenna pattern) between them is 1 mm, and the extension in the longitudinal direction of the facing portion is 6 mm.

Next, a UHF band IC tag was produced using the obtained IC tag antenna circuit.
<Production of UHF band IC tag>
An IC strap (EPC GenII Higgs3) manufactured by Alien Technology is mounted on the IC chip connecting portion of the IC tag antenna circuit of Example 1 and Comparative Example 1 above, and the waterproofing that protects the IC strap and the vicinity thereof is mounted thereon. Paper (protective paper) was laminated (inlet) to produce UHF band IC tags of Example 1 and Comparative Example 1. Note that most of the antenna circuit pattern ( including the cutout portion 2f of the second loop portion 2e) is not covered with the waterproof paper and is exposed. Each UHF band IC tag has a resonance wavelength (band) at the time of drying adjusted to about 0.33 to 0.3 m (frequency: 900 MHz to 1 GHz) in consideration of attachment to a human body.

From this graph, it can be seen that the UHF band IC tag for urine sensor optimized for attachment to the human body has a communication distance of about 4 to 6 m in the blank (when dry). And it turns out that "comparative example 1" which does not have the 2nd loop part for impedance mismatching becomes a communicable distance of about half of the said blank (at the time of drying) at the time of wetness. However, no shift in resonance wavelength is observed. On the other hand, “Example 1” having the notch portion 2f in the second loop portion 2e for impedance mismatching has a communicable distance of about ¼ of the blank (when dry) when wet. It can be seen that the resonance wavelength is also shifted.

From Table 1, it can be seen that the IC tag of “Comparative Example 1” that does not have the second loop portion for impedance mismatching can communicate with the reader even in Experiment 3 corresponding to urination. On the other hand, the IC tag of “Example 1” having the notch portion 2f in the second loop portion 2e for impedance mismatching maintains the communicability during the experiment 2 corresponding to sweating, and urinates. It can be seen that communication with the reader is disabled only during Experiment 3 corresponding to time.

1 UHF band IC tag for urine sensor 1b loop (for impedance matching )
1e Notch part 2 UHF band IC tag for urine sensor 2b 1st loop part (for impedance matching )
2e 2nd loop (for impedance mismatching )
2f Notch 4 IC chip 7 HF band IC tag for urine sensor 7b Notch 7d loop (for impedance matching )
8 HF band IC tag for urine sensor 8b 2nd loop part (for impedance mismatching )
8d notch 8e first loop (for impedance matching )
A, B, C, D Antenna circuit

Claims (9)

  A urine sensor comprising an IC chip and a UHF band antenna circuit, and communicating with a reader by tuning the resonance wavelength of the antenna circuit to a predetermined wavelength by an impedance matching loop formed in a part of the antenna circuit. A UHF band IC tag for a urine sensor, wherein a notch for electrically disconnecting the loop part is formed in a part of the loop part.   An IC chip and a UHF band antenna circuit are provided, and a first loop portion for impedance matching formed in a part of the antenna circuit is used to tune the resonance wavelength of the antenna circuit to a predetermined wavelength to communicate with a reader. A UHF band IC tag for a urine sensor, wherein a second loop part for impedance mismatch is provided in a part of the antenna circuit, and the loop part is electrically connected to a part of the second loop part. A UHF band IC tag for a urine sensor, characterized in that a cutout portion that is cut off is formed.   A urine sensor comprising an IC chip and an HF band antenna circuit, and communicating with a reader by tuning the resonance wavelength of the antenna circuit to a predetermined wavelength by an impedance matching loop formed in a part of the antenna circuit. An HF band IC tag for urine sensor, wherein a notch portion for electrically disconnecting the loop portion is formed in a part of the loop portion.   An IC chip and an antenna circuit for the HF band are provided, and a resonance wavelength of the antenna circuit is tuned to a predetermined wavelength by a first loop for impedance matching formed in a part of the antenna circuit to communicate with a reader A HF band IC tag for a urine sensor, wherein a second loop part for impedance mismatching is provided in a part of the antenna circuit, and the loop part is electrically connected to a part of the second loop part. HF band IC tag for urine sensor, characterized in that a cutout portion that is cut off is formed.   The urine sensor comprising the UHF band IC tag according to claim 1 and the antenna module located at a position away from the antenna module via an antenna module that transmits and receives radio waves of a predetermined wavelength corresponding to the UHF band IC tag. A urination detection system comprising: a reader that communicates with a urine sensor; a recording unit that records signal information of the urine sensor read by the reader; and a notification unit that transmits detection of urine to the outside. The reader has a timer circuit for transmitting the radio wave at a predetermined time interval, and the notification means determines in advance when the communication state between the reader and the urine sensor changes from incommunicable to communicable. A urine detection system characterized in that the urine detection signal is transmitted to the outside.   The urine sensor comprising the UHF band IC tag according to claim 2 and the antenna module that is located away from the antenna module via the antenna module that transmits and receives radio waves of a predetermined wavelength corresponding to the UHF band IC tag. A urination detection system comprising: a reader that communicates with a urine sensor; a recording unit that records signal information of the urine sensor read by the reader; and a notification unit that transmits detection of urine to the outside. The reader has a timer circuit for transmitting the radio wave at a predetermined time interval, and the notification means determines in advance when the communication state between the reader and the urine sensor changes from communicable to incommunicable. A urine detection system characterized in that the urine detection signal is transmitted to the outside.   The urine sensor comprising the HF band IC tag according to claim 3 and the antenna module located at a position away from the antenna module via an antenna module that transmits and receives radio waves having a predetermined wavelength corresponding to the HF band IC tag. A urination detection system comprising: a reader that communicates with a urine sensor; a recording unit that records signal information of the urine sensor read by the reader; and a notification unit that transmits detection of urine to the outside. The reader has a timer circuit for transmitting the radio wave at a predetermined time interval, and the notification means determines in advance when the communication state between the reader and the urine sensor changes from incommunicable to communicable. A urine detection system characterized in that the urine detection signal is transmitted to the outside.   The urine sensor comprising the HF band IC tag according to claim 4 and the antenna module that is located away from the antenna module via the antenna module that transmits and receives radio waves having a predetermined wavelength corresponding to the HF band IC tag. A urination detection system comprising: a reader that communicates with a urine sensor; a recording unit that records signal information of the urine sensor read by the reader; and a notification unit that transmits detection of urine to the outside. The reader has a timer circuit for transmitting the radio wave at a predetermined time interval, and the notification means determines in advance when the communication state between the reader and the urine sensor changes from communicable to incommunicable. A urine detection system characterized in that the urine detection signal is transmitted to the outside.   The urination detection according to any one of claims 5 to 8, wherein the notification means adds the signal information of the urine sensor recorded in the recording means to the urine detection signal and transmits the urine detection signal. system.

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