JP2021145886A - Urination detection system - Google Patents

Abstract

To provide a urination detection system which can detect wetting from outside in a non-contact manner to reduce a burden on a user.SOLUTION: A urination detection system includes: a moisture detection sensor 10 which determines a water-containing state of a diaper 50 worn by a diaper wearer and outputs information on a determination result; and an outside monitor device 20 which receives information output by the moisture detection sensor 10 through wireless communication with the moisture detection sensor 10 and performs monitor output of the received information. The moisture detection sensor 10 is portable and is configured to be arranged on an outer surface 51 of the diaper 50 or in the vicinity of the outer surface 51 and to determine the water-containing state of the diaper 50 while being arranged on the outer surface 51 of the diaper 50 or in the vicinity of the outer surface 51.SELECTED DRAWING: Figure 1

Description

The present invention relates to a urination detection system.

It is common for a caregiver, a guardian, or the like to touch and check the wetness of a diaper worn by a diaper wearer such as a care recipient or an infant. However, this method imposes a heavy burden on both the person who confirms and the person who confirms.

Therefore, in recent years, a technique for detecting the wetness of the diaper by a sensor attached to the diaper has been proposed (see, for example, Patent Documents 1 and 2).

Japanese Unexamined Patent Publication No. 2011-045613 Japanese Unexamined Patent Publication No. 2018-023777

However, in the conventional wetness detection technique described above, it is necessary to wear a diaper equipped with a sensor (see, for example, Patent Document 1) or to install the sensor in the diaper (see, for example, Patent Document 2). Therefore, considering the use of diaper products that are widely distributed and the frequency of changing diapers themselves, it is not always possible to reduce the burden on users.

An object of the present invention is to provide a urination detection system that enables non-contact wetness detection from the outside, thereby reducing the burden on the user.

One aspect of the present invention has been devised to achieve the above object.
A moisture detection sensor that determines the water content of the diaper worn by the diaper wearer and outputs information about the determination result.
An external monitor device that receives information output by the moisture detection sensor via wireless communication with the moisture detection sensor and monitors and outputs the received information.
With
The moisture detection sensor is portable and is configured to be displaceable on the outer surface of the diaper or in the vicinity of the outer surface, and is arranged on the outer surface of the diaper or in the vicinity of the outer surface. It is a urination detection system that is configured to determine the water content of the diaper based on the condition.

According to the present invention, since it is possible to detect wetness from the outside of the diaper without contact, it is possible to reduce the burden on the user who uses the urination detection system.

It is a block diagram which shows typically the functional structure example of the urination detection system which concerns on one Embodiment of this invention. It is an exploded perspective view which shows the schematic structure example of the moisture detection sensor which concerns on one Embodiment of this invention. It is explanatory drawing which shows typically an example of the use mode of the urination detection system which concerns on one Embodiment of this invention. It is explanatory drawing which shows one specific example of the formation pattern of a pair of electrodes in the moisture detection sensor which concerns on one Embodiment of this invention.

Hereinafter, an embodiment of the present invention will be described with reference to the drawings.

<1. Moisture detection sensor configuration example>
First, a configuration example of the moisture detection sensor according to the present embodiment will be described.

The moisture detection sensor is for determining the water content state of the object to be inspected. The "object to be inspected" is not particularly limited as long as it requires determination of the water content, and for example, a diaper worn by a diaper wearer can be mentioned as a specific example. Hereinafter, in the present embodiment, a case where the object to be inspected is a diaper will be given as an example. The "moisture-containing state" refers to the degree of wetness of the object to be inspected. Therefore, "determining the water content" means, if the object to be inspected is a diaper, determining whether the diaper is in a dry state or in a wet state due to urination or the like.

Such a moisture detection sensor is used, for example, in a urination detection system.
FIG. 1 is a block diagram schematically showing a functional configuration example of the urination detection system according to the present embodiment. FIG. 2 is an exploded perspective view showing a schematic configuration example of the moisture detection sensor according to the present embodiment.

As shown in FIGS. 1 and 2, the moisture detection sensor 10 is roughly classified into a sensor unit 11, a measurement control unit 12, a wireless transmission unit 13, and a power supply unit 14.

(Sensor part)
The sensor unit 11 includes a wiring board 11a formed of an insulating material and a pair of electrodes 11b and 11c arranged so as to be arranged on the same surface of the wiring board 11a at predetermined intervals. ing. The pair of electrodes 11b and 11c are formed by patterning a conductive metal material (for example, copper or a copper alloy) on the surface of the wiring board 11a. The details of the formation patterns of the electrodes 11b and 11c will be described later.

The wiring board 11a constituting the sensor unit 11 has a diaper 50 such that the forming surfaces of the pair of electrodes 11b and 11c face the diaper 50 to be inspected in the state of use of the moisture detection sensor 10, which will be described in detail later. It is arranged on the outer surface 51 of the above or in the vicinity of the outer surface 51. Therefore, the pair of electrodes 11b and 11c formed on the same surface of the wiring board 11a are arranged so as to face the diaper 50 in a state of being arranged on the outer surface 51 of the diaper 50 or in the vicinity of the outer surface 51. Will be located.

(Measurement control unit)
The measurement control unit 12 is configured by, for example, a microcomputer, and controls the operation of the entire moisture detection sensor 10. Specifically, the measurement control unit 12 executes a preset processing program so that the microcomputer (hardware resource) and the processing program (software) cooperate with each other to execute the measurement unit 12a and the control unit. It is configured to realize the function as 12b.

The measuring unit 12a applies an AC signal having a preset constant frequency to one of the pair of electrodes 11b and 11c to generate an electric field between the pair of electrodes 11b and 11c, and by the generation of the electric field. This is a function of receiving a received signal obtained from the other of the pair of electrodes 11b and 11c and measuring a physical quantity (for example, a current value) of the received signal. The AC signal may be applied to either the electrode 11b or the electrode 11c as long as it is applied to either of them. The received signal shall be received from the other electrodes 11b and 11c to which the AC signal is not applied. In the example shown in FIG. 1, an AC signal is applied to one electrode 11b and a received signal is received by the other electrode 11c.

When the measuring unit 12a applies an AC signal, an electric field is generated between the pair of electrodes 11b and 11c, and an electric charge flows from one to the other. When the pair of electrodes 11b and 11c are positioned so as to face the diaper 50 to be inspected, the flow of electric charge passes through the inside of the diaper 50. That is, when the sensor unit 11 is arranged on the outer surface 51 of the diaper 50 or in the vicinity of the outer surface 51, the measuring unit 12a generates an electric field passing through the diaper 50 between the pair of electrodes 11b and 11c. It has become.

The control unit 12b recognizes the spatial impedance between the pair of electrodes 11b and 11c based on the signal received by the other of the pair of electrodes 11b and 11c, and based on the recognition result, the water content state of the diaper 50 to be inspected. It is a function to judge. The magnitude of the physical quantity (for example, current value) of the received signal obtained from the other of the pair of electrodes 11b and 11c correlates with the spatial impedance between the pair of electrodes 11b and 11c. The spatial impedance between the pair of electrodes 11b and 11c arranged at predetermined intervals is related to the characteristics of the constituent substances located between them, and the water-containing state of the constituent substances (that is, whether or not they contain water). , How much water is contained, etc.). From these facts, the control unit 12b recognizes the change in the spatial impedance between the electrodes 11b and 11c based on the magnitude of the physical quantity (for example, the current value) of the received signal, and from the recognition result, the diaper which is the object to be inspected. The water content of 50 is determined.

The specific method and procedure for determining the water content of the diaper 50 by the measuring unit 12a and the control unit 12b will be described in detail later.

(Wireless transmitter)
The wireless transmission unit 13 is for performing wireless communication with the external monitor device 20, which will be described in detail later, and transmits information regarding the determination result by the control unit 12b to the external monitor device 20 via wireless communication. .. The wireless transmission unit 13 is configured to perform short-range wireless communication with the external monitoring device 20 having a short communication distance, and the details of the short-range wireless communication will be described later.

(Power supply part)
The power supply unit 14 supplies power to the measurement unit 12a, the control unit 12b, and the wireless transmission unit 13. As the power supply unit 14, for example, a primary battery such as a button type battery can be used, but the present invention is not limited to this, and a rechargeable secondary battery may be used.

(Housing part)
Further, as shown in FIG. 2, the moisture detection sensor 10 includes a housing unit 15 for accommodating the sensor unit 11, the measurement control unit 12, the wireless transmission unit 13, and the power supply unit 14 described above. Has been done.

The housing portion 15 is, for example, a lower housing portion 15a formed of a resin material in the shape of an open bottom container, and an upper housing portion 15a formed of a resin material so as to cover the open portion of the lower housing portion 15a. It is provided with a portion 15b. The sensor unit 11, the measurement control unit 12, the wireless transmission unit 13, and the power supply unit 14 are accommodated in the space formed when the lower housing portion 15a and the upper housing portion 15b are combined. ing.

Further, the housing portion 15 is a combination of the lower housing portion 15a and the upper housing portion 15b, and has portability in a state where each portion 11 to 14 is accommodated in the space formed by these, and is an object to be inspected. It is configured so that it can be arranged on the outer surface 51 of a diaper 50 or in the vicinity of the outer surface 51. The term "portability" as used herein means a property that a person can easily carry in his / her hand. The fact that the diaper 50 can be arranged "on the outer surface" means that the diaper wearer can arrange the diaper 50 so as to be in contact with the outer surface (that is, the outer surface) 51 of the diaper 50 when the diaper 50 is worn. Further, the fact that the diaper 50 can be placed in the "nearby place" of the outer surface 51 means that the diaper wearer does not come into contact with the diaper 50 but is not far from the diaper 50 when the diaper wearer wears the diaper 50. Specifically, it means that, for example, it can be placed on the outer surface of clothes worn by the diaper wearer, or on the outer surface of the bedding used by the diaper wearer.

Such a housing portion 15 can be, for example, a square container having an outer size of about 40 mm to 70 mm × 20 mm × 40 mm × 5 mm to 15 mm. However, the shape is not limited to this, and may be formed in another shape. In this specification, the notation of "A to B" means A or more and B or less.

<2. Configuration example of urination detection system>
Next, a configuration example of a urination detection system configured by using the moisture detection sensor 10 having the above-described configuration will be described.

As shown in FIG. 1, the urination detection system includes an external monitor device 20 and a server device 30 in addition to the moisture detection sensor 10.

In the illustrated example, each of the moisture detection sensor 10 and the external monitoring device 20 is provided with only one, but the present invention is not limited to this. For example, not only one moisture detection sensor 10 but also a plurality of moisture detection sensors 10 may exist in the system. At least one external monitoring device 20 may be present in the system. When there are a plurality of moisture detection sensors 10 in the system, each moisture detection sensor 10 can be configured to share one external monitoring device 20. However, the present invention is not limited to this, and a plurality of external monitoring devices 20 may exist in the system.

(External monitoring device)
The external monitor device 20 receives the information output by the moisture detection sensor 10 via wireless communication with the wireless transmission unit 13 of the moisture detection sensor 10, and monitors and outputs the received information. The information received from the moisture detection sensor 10 is mainly information on the determination result of the water content state by the control unit 12b of the moisture detection sensor 10, but other information may be included. The monitor output of the received information shall be performed by at least one of the display output and the sound output. Examples of the display output include at least one such as an image display output on a display screen and a lighting output by a display lamp. Further, as the sound output, at least one such as a buzzer sound output and a voice guidance output can be mentioned.

The wireless communication between the moisture detection sensor 10 and the external monitoring device 20 is performed by short-range wireless communication having a short communication distance. Specifically, the moisture detection sensor 10 and the external monitoring device 20 perform short-range wireless communication in which the communication distance is 1 m or less, preferably the communication distance is about 10 cm to 80 cm, and more preferably the communication distance is about 10 cm to 50 cm. It is configured to exchange information via. When at least one external monitor device 20 is used for a plurality of moisture detection sensors 10 in the system, each moisture detection sensor 10 and the external monitor device 20 are described in detail later. It is assumed that information is exchanged via short-range wireless communication having a communication distance of 1/2 or less of the arrangement interval of the detection sensors 10.

Further, the wireless communication between the moisture detection sensor 10 and the external monitoring device 20 is performed by wireless communication that does not require mutual authentication. Specifically, the moisture detection sensor 10 and the external monitoring device 20 can communicate with each other via wireless communication without requiring mutual authentication such as ID authentication procedure and pairing procedure. Is configured to give and receive.

A typical example of such wireless communication is infrared communication, which enables connection at any time using infrared rays. However, the present invention is not limited to this, and if the communication distance is 1 m or less and the wireless communication enables communication without mutual authentication, information should be exchanged by wireless communication by another method. It doesn't matter.

The external monitoring device 20 that performs short-range wireless communication with the moisture detection sensor 10 is preferably configured to have portability. This is so that the external monitoring device 20 can be easily brought close to the location where the moisture detection sensor 10 is arranged. The term "portability" as used herein is synonymous with the portability of the moisture detection sensor 10.

Further, it is assumed that the external monitoring device 20 has a function of performing wireless communication with the server device 30 in addition to the function of performing short-range wireless communication with the moisture detection sensor 10. Details of the wireless communication with the server device 30 will be described later.

As the external monitor device 20 as described above, for example, a portable information terminal device such as a smartphone or a tablet terminal having a communication function, an information output function, or the like can be used. However, the present invention is not limited to this, and a wristwatch-type information terminal device having a display screen can be used as long as it is possible to monitor and output the information received from the moisture detection sensor 10. Further, the external monitor device 20 does not necessarily have to have a monitor output function by a display screen or the like, and may have, for example, only a function of performing monitor output by lighting an indicator lamp or the like, or a speaker. It may have only a function of performing monitor output by sound output from.

(Server device)
The server device 30 is for managing information about the diaper wearer. Therefore, the server device 30 receives information on the result of the monitor output by the external monitor device 20 via wireless communication with the external monitor device 20, and stores and stores the received information in a database. It is configured. If such a server device 30 is provided in the system, even if there are a plurality of diaper wearers, information on each diaper wearer can be collected and stored in a place away from each diaper wearer. And you will be able to manage it.

The wireless communication between the external monitoring device 20 and the server device 30 is performed by wireless communication having a longer communication distance than between the moisture detection sensor 10 and the external monitoring device 20. Specifically, the external monitoring device 20 and the server device 30 communicate with each other via wireless communication having a communication distance of about 10 m to 50 m, such as Wi-Fi (registered trademark) and Bluetooth (registered trademark). , It is configured to exchange information.

The server device 30 as described above is, for example, a calculation unit composed of a combination of a CPU (Central Processing Unit), a ROM (Read Only Memory), a RAM (Random Access Memory), a flash memory, an HDD (Hard Disk Drive), and the like. It can be configured by using a computer device configured with hardware resources such as a storage device and a data input / output unit such as an external interface.

<3. Usage of urination detection system>
Next, an example of the usage mode of the urination detection system having the above-described configuration will be described. Here, the case where the urination detection system is used for long-term care support in a long-term care facility will be taken as an example.

FIG. 3 is an explanatory diagram schematically showing an example of a usage mode of the urination detection system according to the present embodiment.
As shown in the illustrated example, in the nursing care facility, a plurality of beds 61a, 61b, 61c ... Are prepared, and the care recipients 62a, 62b, 62c ... Are sleeping in each of the beds 61a, 61b, 61c ... It is assumed that each of the care recipients 62a, 62b, 62c ... Are diaper wearers.
The urination detection system used under such circumstances performs the following processing operations.

When each care recipient 62a, 62b, 62c ... Starts to go to bed, the care staff 63 in charge of caring for each care recipient 62a, 62b, 62c ... Is worn by each care recipient 62a, 62b, 62c ... Moisture detection sensors 10a, 10b, 10c ... Are individually arranged on the outer surface of the diapers 50a, 50b, 50c ... The location of the moisture detection sensors 10a, 10b, 10c ... Does not necessarily have to be on the outer surface of the diapers 50a, 50b, 50c ..., for example, on the outer surface of the clothes worn by each care recipient 62a, 62b, 62c ... Alternatively, it may be located near the outer surface of the diapers 50a, 50b, 50c ..., such as on the outer surface of the bedding used by each care recipient 62a, 62b, 62c ....

That is, the moisture detection sensors 10a, 10b, 10c ... Are arranged in non-contact with the human body of the care recipient 62a, 62b, 62c ... Further, it is not necessary to attach the diapers 50a, 50b, 50c ... To be worn by the care recipients 62a, 62b, 62c ... In advance. All you have to do is place it on the outer surface of your bedding.

Each of the moisture detection sensors 10a, 10b, 10c ... Arranged in this way determines the water content state of the diapers 50a, 50b, 50c ... Specifically, the moisture detection sensors 10a, 10b, 10c ... Apply an AC signal to one of the pair of electrodes 11b, 11c to generate an electric field passing through the inside of the diapers 50a, 50b, 50c ... In that state, if the care recipients 62a, 62b, 62c ... Are urinating or the like, the water-absorbent polymer constituting the diapers 50a, 50b, 50c ... Contains water. When the water-absorbent polymer contains water, the spatial impedance inside the diapers 50a, 50b, 50c ... greatly changes (for example, about 80 times) with respect to the state without water. Therefore, the moisture detection sensors 10a, 10b, 10c ... Measure the magnitude of the physical quantity (for example, the current value) of the received signal obtained from the other of the pair of electrodes 11b, 11c according to the generation of the electric field, and measure the measured signal. If the change in the spatial impedance between the electrodes 11b and 11c is recognized from the result, the water content inside the diapers 50a, 50b, 50c ... Etc.) can be determined. That is, each moisture detection sensor 10a, 10b, 10c ... When the measurement result of the magnitude of the physical quantity of the received signal changes beyond a preset threshold value, the diapers 50a, 50b, 50c ... Judge that it has become.

Each of the moisture detection sensors 10a, 10b, 10c ... Continuously repeats the above determination process while the power is supplied from the power supply unit 14. Then, each time the determination process is performed, information on the determination result (including information indicating that the determination result is in a water-containing state, information indicating that the determination process is in a non-moisture-containing state, etc.) is transmitted by wireless communication.

That is, while the moisture detection sensors 10a, 10b, 10c ... Are arranged on the outer surface of the diapers 50a, 50b, 50c ... Worn by the care recipient 62a, 62b, 62c ... The water content of the 50a, 50b, 50c ... Is determined in non-contact with the human body of the care recipient 62a, 62b, 62c ..., And the information on the determination result is continuously transmitted by wireless communication.

At bedtime of each care recipient 62a, 62b, 62c ..., the care staff 63 in charge of caring for each care recipient 62a, 62b, 62c ... Periodically between the care recipients 62a, 62b, 62c ... We will go around and see how each person in turn approaches each of the care recipients 62a, 62b, 62c, and so on. At this time, the care staff 63 shall carry out the patrol with the external monitoring device 20.

The moisture detection sensors 10a, 10b, 10c ... Arranged for each of the care recipients 62a, 62b, 62c ... And the external monitoring device 20 of the care staff 63 so as to perform wireless communication between them. It is configured. However, the wireless communication between them is a short-range wireless communication having a communication distance of 1 m or less. Specifically, the communication distance is 1 m or less, preferably about 10 cm to 80 cm, and more preferably about 10 cm to 50 cm. That is, the external monitoring device 20 wirelessly communicates only with any of the moisture detection sensors 10a, 10b, 10c ... Located within the range of the limited communication distance, and detects other moisture located outside the range of the communication distance. Wireless communication is not performed with the sensors 10a, 10b, 10c ...

Further, the short-range wireless communication between the moisture detection sensors 10a, 10b, 10c ... And the external monitoring device 20 has a communication distance of 1/2 or less of the arrangement interval of the moisture detection sensors 10a, 10b, 10c ... Is. Specifically, for example, when the arrangement intervals of the beds 61a, 61b, 61c ... Used by the care recipients 62a, 62b, 62c ... Are a distance P (for example, 2 m), the care recipients 62a, 62b, 62c ... Since the arrangement interval of the moisture detection sensors 10a, 10b, 10c ... Arranged with respect to the relative distance P is also approximately the distance P, the short-range wireless communication is a communication distance of half (that is, P × 1/2) or less of the distance P. It shall be.

If short-range wireless communication with such a communication distance is performed, the external monitoring device 20 will perform wireless communication only with the moisture detection sensors 10a, 10b, 10c ... At positions approached by the care staff 63. For example, when the care staff 63 approaches a certain care recipient 62b and the external monitor device 20 of the care staff 63 approaches the moisture detection sensor 10b arranged for the care recipient 62b, the external monitor device 20 , Only the moisture detection sensor 10b arranged for the care recipient 62b is wirelessly communicated, and the other moisture detection sensors 10a, 10c ... Are not wirelessly communicated. Therefore, even if a plurality of beds 61a, 61b, 61c ... Are present on the same floor and a plurality of moisture detection sensors 10a, 10b, 10c ... Are used on the floor, the care staff 63 having the external monitoring device 20 Is to easily grasp which moisture detection sensor 10b the external monitoring device 20 is communicating with, that is, which care recipient 62b the output information of the external monitoring device 20 is for. Can be done.

Further, the wireless communication between the moisture detection sensors 10a, 10b, 10c ... And the external monitoring device 20 is performed by wireless communication that does not require mutual authentication. Specifically, if the moisture detection sensors 10a, 10b, 10c ... And the external monitoring device 20 are brought close to each other within the communication distance between the moisture detection sensors 10a, 10b, 10c ... Wireless communication between each other is established without the need for authentication procedures such as authentication procedures and pairing procedures. Therefore, for the care staff 63, even when looking at the appearance of a plurality of care recipients 62a, 62b, 62c ..., the moisture detection sensor 10a is held by the external monitor device 20 without requiring complicated authentication procedures or the like. , 10b, 10c ..., which is very convenient.

When wireless communication between the moisture detection sensors 10a, 10b, 10c ... And the external monitoring device 20 is established, the external monitoring device 20 is subjected to the moisture detection sensors 10a, 10b, 10c ... Information on the determination result of the water content of the diapers 50a, 50b, 50c ... Is transmitted.

In that case, if the wireless communication as described above is performed between the moisture detection sensors 10a, 10b, 10c ... And the external monitoring device 20, each of the plurality of moisture detection sensors 10a, 10b, 10c ... Even in the case of transmission, each information can be sequentially received by at least one external monitoring device 20. That is, at least one external monitoring device 20 can be shared with the plurality of moisture detection sensors 10a, 10b, 10c ... Therefore, for example, it is very suitable for using the care of a plurality of care recipients 62a, 62b, 62c ... In a care facility in which at least one care staff 63 is in charge.

Upon receiving the information output by the moisture detection sensors 10a, 10b, 10c ..., The external monitoring device 20 monitors and outputs the received information. The monitor output of the received information is performed by at least one of the display output and the sound output. That is, the monitor output may be performed by both the display output and the sound output, or may be performed by only one of them. Further, the care staff 63 who operates the external monitor device 20 may be able to select whether to perform the display output or the sound output.

When the external monitor device 20 outputs a monitor, the care staff 63 who refers to the monitor output accurately grasps the water content state of the diapers 50a, 50b, 50c ... Weared by the care recipients 62a, 62b, 62c ... be able to. At that time, the care staff 63 only needs to bring the external monitoring device 20 close to the moisture detection sensors 10a, 10b, 10c ..., And does not need to touch the diapers 50a, 50b, 50c ... You will not be forced to. Further, the moisture detection sensors 10a, 10b, 10c ... Are not forced to bear a heavy burden because the moisture detection sensors 10a, 10b, 10c ... Are arranged in non-contact with the human body.

Then, the care staff 63 accurately grasps the water content of the diapers 50a, 50b, 50c ..., And then takes appropriate measures such as changing the diaper as necessary.

The care staff 63 sequentially performs the above processing for each of the care recipients 62a, 62b, 62c ... Then, the external monitor device 20 owned by the care staff 63 sequentially outputs monitors for each of the care recipients 62a, 62b, 62c, and so on.

In that case, each time the external monitor device 20 performs monitor output, the external monitor device 20 transmits information regarding the result of the monitor output to the server device 30 by wireless communication. At this time, it is assumed that wireless communication such as Wi-Fi (registered trademark) or Bluetooth (registered trademark) has been established in advance between the external monitoring device 20 and the server device 30.

When the information regarding the result of the monitor output is transmitted from the external monitor device 20, the server device 30 receives the information, stores the received information in a database, and stores the information. Specifically, the information regarding the result of the monitor output received from the external monitoring device 20 is used as the reception date / time information of the information, the identification information for identifying the care recipients 62a, 62b, 62c, etc. related to the information. In association with this, storage is stored in a predetermined storage area in the server device 30.

As a result, in the urination detection system, even when there are a plurality of care recipients 62a, 62b, 62c ..., Information on each care recipient 62a, 62b, 62c ... It can be managed at a place away from the persons 62a, 62b, 62c ....

<4. Details of water content determination>
Next, the details of the water content determination by the water content detection sensors 10 (10a, 10b, 10c ...) In the urination detection system that performs the above-mentioned series of processing operations will be described more specifically.

The moisture detection sensor 10 generates an electric field passing through the diaper 50 between the pair of electrodes 11b and 11c. At this time, for example, if the substance forming the space between the pair of electrodes 11b and 11c is air, the relative permittivity is about 1.0, but if the substance forming the space is water, the relative permittivity is about 1.0. Is about 80. That is, the relative permittivity differs by about 80 times depending on the presence or absence of moisture. Therefore, in the space between the pair of electrodes 11b and 11c, the capacitance between the electrodes 11b and 11c differs depending on the presence or absence of water, and the impedance (easiness of charge flow) between the electrodes 11b and 11c changes. become.

Utilizing this property, the moisture detection sensor 10 measures the magnitude of the physical quantity (for example, current value) of the received signal obtained by generating an electric field between the pair of electrodes 11b and 11c, and the pair is obtained from the measurement result. Recognizes the impedance of the space between the electrodes 11b and 11c. Then, the water content state of the diaper 50, which is the object to be inspected, is determined from the impedance recognition result.

The water content of the diaper 50 may be determined as follows.
For example, a threshold value is set in advance for the magnitude of the current value of the received signal, and if the measurement result of the current value exceeds the threshold value, it is determined that the diaper 50 to be inspected is in a dry state. If the measurement result of the current value is equal to or less than the threshold value, it is determined that the diaper 50 is in a wet state due to urination or the like.
Further, for example, a threshold value is set in advance for the correspondence relationship between the magnitude of the current value of the received signal and the index (for example, the water content value) of the wetness of the diaper 50, and the measurement result of the current value is the wetness. After converting to an index, the monitor output result of the index is used as the determination result of the water content state of the diaper 50.
The determination result of such a water content state is transmitted to the external monitor device 20 and output as a monitor.

By the way, when the object to be inspected is the diaper 50, the moisture detection sensor 10 needs to recognize the spatial impedance and determine the water content state of the diaper 50 worn by the care recipient 62. In that case, the moisture detection sensor 10 passes through the inside of the diaper 50 with respect to the electric field generated between the pair of electrodes 11b and 11c in recognizing the spatial impedance, as shown in FIG. The human body of the care recipient 62 who wears 50 should not be passed. This is because the human body of the care recipient 62 is composed of a large amount of water, and if an electric field passes through the human body, there is a possibility that the water content state of the diaper 50 cannot be correctly determined. That is, an electric field should be generated between the pair of electrodes 11b and 11c in a range suitable for determining the water content of the diaper 50 worn by the care recipient 62.

From this, the moisture detection sensor 10 is spaced between the pair of electrodes 11b and 11c and the measuring unit 12a so as to generate an electric field in a range suitable for determining the water content of the diaper 50 worn by the care recipient 62. The frequency of the AC signal applied by is set. More specifically, the pair of electrodes 11b, The interval of 11c and the frequency of the AC signal applied by the measuring unit 12a are set.

Specifically, in the moisture detection sensor 10, the distance between the pair of electrodes 11b and 11c is set to, for example, 1 mm to 5 mm, preferably 2 mm to 4 mm, and more preferably 2.5 mm to 3.5 mm. Further, in the moisture detection sensor 10, the frequency of the AC signal applied by the measuring unit 12a is set to, for example, 1 MHz to 3 MHz, preferably 1.5 MHz to 2.5 MHz, more preferably about 2 MHz. The moisture detection sensor 10 set in this way generates an electric field in a range of about 1 mm to 8 mm (that is, only within a limited range) in the direction perpendicular to the electrode forming surface of the wiring board 11a in the sensor unit 11. Let me.

As a result, the moisture detection sensor 10 is placed on the outer surface 51 of the diaper 50 worn by the care recipient 62 or in the vicinity of the outer surface 51, and is in a range suitable for determining the water content of the diaper 50 (that is,). An electric field is generated in a range that passes through the inside of the diaper 50 and does not reach the human body of the care recipient 62 who wears the diaper 50). That is, the moisture detection sensor 10 set as described above is very suitable for configuring the urination detection system.

Further, when the object to be inspected is the diaper 50, the moisture detection sensor 10 is used by being arranged on the outer surface 51 of the diaper 50 worn by the care recipient 62 or in the vicinity of the outer surface 51. It is preferable that the shape is as small as possible in order to reduce the burden on the like. However, even when the diaper is formed in a small size, the spatial impedance recognition for determining the water content state of the diaper 50 should be performed with high sensitivity.

The impedance detection sensitivity correlates with the parallel length of a pair of electrodes 11b and 11c arranged at a predetermined interval (the stretched length of the portion where the electrodes 11b and 11c are arranged). For example, the longer the parallel length of each of the electrodes 11b and 11c, the better the impedance detection sensitivity. However, simply increasing the parallel length of the electrodes 11b and 11c leads to a situation contrary to the miniaturization of the moisture detection sensor 10.

Based on this, the pair of electrodes 11b and 11c in the moisture detection sensor 10 are arranged on the surface of the wiring board 11a in the following formation pattern.

FIG. 4 is an explanatory diagram showing a specific example of the formation pattern of the pair of electrodes in the moisture detection sensor according to the present embodiment.

As shown in FIG. 4, each of the pair of electrodes 11b and 11c in the moisture detection sensor 10 converts the linear portions 11d and 11e extending in parallel with the paired mating electrodes and the directions in which the straight portions 11d and 11e extend. It is composed of a combination of the corner portions 11f and 11g. Specifically, one electrode 11b is formed by a combination of a straight portion 11d on three sides and two corner portions 11f to form a U-shaped formation pattern such as a channel cross section in which one side is open. .. Further, in the other electrode 11c, the straight line portion 11e on one side is arranged in the region of the straight line portion 11e on the four sides arranged so as to draw a square by the combination of the straight line portion 11e on the five sides and the five corner portions 11g. It is composed of a formation pattern made up of. Each of the electrodes 11b and 11c is arranged in a forming pattern such that the straight portion 11e on one side of the other electrode 11c fits into the open portion of one electrode 11b.

The pair of electrodes 11b and 11c arranged on the surface of the wiring board 11a in such a forming pattern have parallel lengths of the electrodes 11b and 11c (each electrode 11b and 11c are lined up) while ensuring a distance S from each other. It is possible to secure a sufficient stretch length of the portion). Moreover, even if the parallel lengths of the electrodes 11b and 11c are sufficiently secured, if the electrodes 11b and 11c are configured by the formation pattern having the corner portions 11f and 11g, the electrodes 11b and 11c are limited. The area of the wiring board 11a can be accommodated and arranged on the surface of the wiring board 11a.

Therefore, the pair of electrodes 11b and 11c having the above-mentioned formation pattern is very suitable for miniaturizing the moisture detection sensor 10 while realizing good impedance detection sensitivity. That is, it is possible to achieve both the contradictory matters of achieving good detection sensitivity and miniaturizing the sensor.

<5. Effect of this embodiment>
According to this embodiment, one or more of the following effects are achieved.

(A) In the present embodiment, the urination detection system includes a portable moisture detection sensor 10 and an external monitor device 20 that wirelessly communicates with the moisture detection sensor 10, and the moisture detection sensor 10 is a diaper 50. It is configured to determine the water content state of the diaper 50 in a state of being arranged on the outer surface 51 of the diaper or in the vicinity of the outer surface 51. That is, the moisture detection sensor 10 detects wetness from the outside of the diaper 50 in a non-contact manner, and the external monitor device 20 receives information from the moisture detection sensor 10 via wireless communication and outputs the monitor. Therefore, according to the present embodiment, it is possible to detect the wetness of the care recipient 62 wearing the diaper 50 in a non-contact manner, and the wetness of the diaper 50 worn by the care recipient 62 by referring to the monitor output result. Since the care staff 63 can confirm the above, the burden on the care recipient 62, the care staff 63, and the like can be reduced. That is, it is possible to reduce the burden on the user who uses the urination detection system.

(B) In the present embodiment, in the urination detection system, the moisture detection sensor 10 and the external monitor device 20 are configured to exchange information via short-range wireless communication having a communication distance of 1 m or less. .. As a result, the external monitoring device 20 wirelessly communicates only with the moisture detection sensor 10 located at a close position, and does not wirelessly communicate with other moisture detection sensors 10. Therefore, for example, even when a plurality of moisture detection sensors 10 are used on the same floor, which moisture detection sensor 10 the monitor output from the external monitor device 20 is from, that is, which care recipient 62 is used. It is possible to easily grasp whether it is a thing. That is, if the moisture detection sensor 10 and the external monitor device 20 are configured to perform short-range wireless communication, it is very suitable especially when a plurality of moisture detection sensors 10 are used on the same floor. It is possible to surely reduce the burden on the user in such a case.

(C) In the present embodiment, in the urination detection system, the moisture detection sensor 10 and the external monitor device 20 are configured to exchange information via wireless communication that enables communication without requiring mutual authentication. Has been done. As a result, the external monitoring device 20 can perform wireless communication with the moisture detection sensor 10 without requiring an authentication procedure such as an ID authentication procedure or a pairing procedure. Therefore, since the monitor output by the external monitor device 20 can be performed without requiring a complicated authentication procedure or the like, it is very convenient and the burden on the user can be reduced in this respect as well.

(D) In the present embodiment, in the urination detection system, at least one external monitoring device 20 is shared with the plurality of moisture detection sensors 10. Therefore, for example, it is very suitable for using the care of a plurality of care recipients 62 in a care facility in which at least one care staff 63 is in charge, and in this respect as well, the burden on the user can be reduced.

(E) In the present embodiment, in the urination detection system, the moisture detection sensor 10 and the external monitoring device 20 provide information via short-range wireless communication with a communication distance of 1/2 or less of the arrangement interval of each moisture detection sensor 10. Is configured to give and receive. Therefore, for example, even when a plurality of moisture detection sensors 10 are used on the same floor, it is possible to eliminate the possibility that wireless communication with each moisture detection sensor 10 will interfere with each other. That is, it becomes possible to surely grasp which moisture detection sensor 10 the monitor output from the external monitor device 20 is from. This is very suitable especially when a plurality of moisture detection sensors 10 are used on the same floor, and it is possible to surely reduce the burden on the user in such a case.

(F) In the present embodiment, in the urination detection system, when the external monitor device 20 outputs a monitor, the water content state of the diaper 50 can be accurately grasped by referring to the monitor output. In that case, if the external monitor device 20 outputs the monitor output by the display output, not only the information on whether or not the diaper 50 contains water is output, but also the amount of water contained in the diaper 50 and the like. It is possible to easily handle the output of information. That is, it is useful in that a relatively large amount of information can be output. Further, if the external monitor device 20 outputs the monitor by the sound output, it is possible to reliably notify the care staff 63 who refers to the monitor output even in a dark environment such as at night. Become.

(G) In the present embodiment, the urination detection system includes a server device 30, and the external monitor device 20 is configured to transmit information regarding the result of the monitor output to the server device 30. Therefore, if the server device 30 creates a database of information from the external monitoring device 20 and stores it in a database, the urine detection system can store information about each care recipient 62 even when there are a plurality of care recipients 62. It can be managed collectively and at a place away from each care recipient 62.

(H) In the present embodiment, the moisture detection sensor 10 generates an electric field between the pair of electrodes 11b and 11c through the diaper 50 to be inspected, and recognizes the spatial impedance between the electrodes 11b and 11c. It is configured to determine the water content of the diaper 50. By using the moisture detection sensor 10 having such a configuration, it is possible to detect wetness of the diaper 50 from the outside without contact. Therefore, according to the present embodiment, it is possible to reduce the burden on the user who uses the moisture detection sensor 10. Specifically, for example, wetting detection of the diaper 50 can be performed non-contactly without wearing a diaper equipped with a sensor or installing the sensor in the diaper. It can be used, etc., which can reduce the burden on the user. In addition, since it is possible to detect wetting in a non-contact manner, it is possible to reduce the burden on the care recipient 62, the care staff 63, and the like, and in this respect as well, the burden on the user can be reduced.

(I) In the present embodiment, the moisture detection sensor 10 is configured to transmit information regarding the determination result of the water content state to the external monitoring device 20 via wireless communication. That is, the moisture detection sensor 10 that determines the water content state and the external monitor device 20 that monitors and outputs information on the determination result are separately configured. Therefore, it is possible to configure the external monitoring device 20 to have portability while suppressing the increase in size of the moisture detection sensor 10, which is extremely convenient for users who use them. In this respect as well, the burden on the user can be reduced.

(J) In the present embodiment, the moisture detection sensor 10 has a shape in which the housing portion 15 is portable and can be arranged on the outer surface 51 of the diaper 50 to be inspected or in the vicinity of the outer surface 51. It is configured in. Therefore, it is possible to carry and arrange the moisture detection sensor 10 on the outer surface 51 of the diaper 50 as needed (for example, only when the care recipient goes to bed), which is convenient for the user. The characteristics are very excellent, and the burden on the user can be reduced in this respect as well.

(K) In the present embodiment, the moisture detection sensor 10 is spaced between the pair of electrodes 11b and 11c and the measuring unit 12a so as to generate an electric field in a range suitable for determining the water content of the diaper 50 to be inspected. The frequency of the AC signal applied by is set. Therefore, for example, even when the water content of the diaper 50 worn by the care recipient 62 is determined, the determination can be made correctly. That is, it is possible to accurately determine the water content state based on the usage mode of the moisture detection sensor 10.

(L) In the present embodiment, the pair of electrodes 11b, 11c in the moisture detection sensor 10 has a straight line portion 11d, 11e extending in parallel with the paired mating electrode, and an angle that changes the direction in which the straight line portion 11d, 11e extends. It is composed of a combination of parts 11f and 11g. A pair of electrodes 11b and 11c configured with such a formation pattern is very suitable for miniaturizing the moisture detection sensor 10 while achieving good impedance detection sensitivity. That is, it is possible to achieve both the contradictory matters of achieving good detection sensitivity and miniaturizing the sensor.

(M) In the present embodiment, the object to be inspected for which the moisture detection sensor 10 determines the water content is the diaper 50 worn by the diaper wearer. The wetness of the diaper 50 has a great influence on the comfort for the diaper wearer. In this respect, if the moisture detection sensor 10 of the present embodiment is used, the water content state of the diaper 50 can be determined without making the diaper wearer feel a burden, so that the convenience for the diaper wearer is very excellent. Become.

<6. Modification example>
Although the embodiments of the present invention have been specifically described above, the present invention is not limited to the above-described embodiments, and various modifications can be made without departing from the gist thereof.

In the above-described embodiment, the case where one external monitoring device 20 is shared for a plurality of moisture detection sensors 10 (10a, 10b, 10c ...) In the urination detection system has been described as an example, and the present invention includes this. There is no limitation. For example, the urination detection system may be configured to include a plurality of external monitoring devices 20. Further, the urination detection system may be configured to include one moisture detection sensor 10 and one external monitoring device 20, and even when such a configuration is provided, urination detection is performed. It is possible to reduce the burden on the user who uses the system.

Further, in the above-described embodiment, the case where the urination detection system is used for long-term care support in a long-term care facility has been given as an example, but the present invention is not limited thereto. For example, the urination detection system may be used for infants in childcare facilities, inpatients in medical facilities, and the like.

Further, in the above-described embodiment, the case where the object to be inspected to be subject to the water content determination by the moisture detection sensor 10 is the diaper 50 has been given as an example, but the present invention is not limited thereto. That is, the moisture detection sensor 10 may determine the water content of an object to be inspected other than the diaper 50. As a specific example of another object to be inspected, for example, a seating surface of a seat in a train or the like can be mentioned. If the moisture content detection sensor 10 is used to determine the water content of the seat surface of a seat in a train or the like, the burden on the cleaner inside the train or the like can be reduced.

Further, in the above-described embodiment, the distance between the pair of electrodes 11b and 11c and the AC signal applied by the measuring unit 12a so that the moisture detection sensor 10 generates an electric field in a range suitable for determining the water content state of the diaper 50. Although the case where the frequency is set is taken as an example, the present invention is not limited to this. That is, the distance between the pair of electrodes 11b and 11c and the frequency of the AC signal applied by the measuring unit 12a may be appropriately set according to the object to be inspected for determining the water content state. The same applies to the formation pattern of the pair of electrodes 11b and 11c in the moisture detection sensor 10, and the present invention is not limited to the formation pattern described in the above-described embodiment, and the object to be inspected to be subject to the water content determination. It may be set as appropriate according to the outer size of the housing portion 15 and the like.

<5. Preferred Embodiment of the present invention>
Hereinafter, preferred embodiments of the present invention will be added.

(Appendix 1)
According to one aspect of the invention
A moisture detection sensor that determines the water content of the diaper worn by the diaper wearer and outputs information about the determination result.
An external monitor device that receives information output by the moisture detection sensor via wireless communication with the moisture detection sensor and monitors and outputs the received information.
With
The moisture detection sensor is portable and is configured to be displaceable on the outer surface of the diaper or in the vicinity of the outer surface, and is arranged on the outer surface of the diaper or in the vicinity of the outer surface. A urination detection system is provided that is configured to determine the water content of the diaper by state.

(Appendix 2)
Preferably,
The urination detection system according to Appendix 1, wherein the moisture detection sensor and the external monitor device are configured to exchange information via short-range wireless communication having a communication distance of 1 m or less.

(Appendix 3)
Preferably,
The urination detection system according to Appendix 1 or 2, wherein the moisture detection sensor and the external monitor device are configured to exchange information via wireless communication that enables communication without requiring mutual authentication. Provided.

(Appendix 4)
Preferably,
With the plurality of the moisture detection sensors
With at least one external monitoring device shared for each moisture detection sensor,
The urination detection system according to any one of the above-mentioned appendices 1 to 3 is provided.

(Appendix 5)
Preferably,
The moisture detection sensor and the external monitor device are configured to exchange information via short-range wireless communication having a communication distance of 1/2 or less of the arrangement interval of each moisture detection sensor. Urination detection system is provided.

(Appendix 6)
Preferably,
The external monitor device is provided with the urination detection system according to any one of Supplementary Notes 1 to 5, which is configured to output the monitor output by a display output.

(Appendix 7)
Preferably,
The external monitor device is provided with the urination detection system according to any one of Supplementary notes 1 to 6, which is configured to output the monitor by sound output.

(Appendix 8)
It is equipped with a server device that manages information about the diaper wearer.
The urination detection according to any one of Appendix 1 to 5, wherein the external monitor device and the server device are configured to exchange information regarding the result of monitor output by the external monitor device via wireless communication. The system is provided.

(Appendix 9)
According to another aspect of the invention
A pair of electrodes arranged so as to face the inspected object in a state of being arranged on the outer surface of the inspected object or in the vicinity of the outer surface.
A measuring unit that applies an AC signal to one of the pair of electrodes to generate an electric field that passes through the object to be inspected between the pair of electrodes.
A control unit that recognizes the spatial impedance between the pair of electrodes based on the signal received by the other of the pair of electrodes and determines the water content state of the object to be inspected.
Moisture detection sensor is provided.

(Appendix 10)
Preferably,
The moisture detection sensor according to Appendix 9 is provided, which includes a wireless transmission unit that transmits information on a determination result by the control unit to an external monitoring device via wireless communication.

(Appendix 11)
Preferably,
A power supply unit that supplies power to the measurement unit, the control unit, and the wireless transmission unit, and
A housing unit that houses the pair of electrodes, the measurement unit, the control unit, the wireless transmission unit, and the power supply unit.
With
The moisture detection sensor according to Appendix 10 is provided, wherein the housing portion is portable and has a shape that can be arranged on the outer surface of the object to be inspected or in the vicinity of the outer surface.

(Appendix 12)
Preferably,
The embodiment according to any one of Appendix 9 to 11, wherein the distance between the pair of electrodes and the frequency of the AC signal are set so as to generate the electric field in a range suitable for determining the water content state of the object to be inspected. Moisture detection sensor is provided.

(Appendix 13)
Preferably,
7. Moisture detection sensor is provided.

(Appendix 14)
Preferably,
The object to be inspected is a diaper worn by a diaper wearer. The moisture detection sensor according to any one of Appendix 9 to 13 is provided.

10, 10a, 10b, 10c ... Moisture detection sensor, 11 ... Sensor unit, 11a ... Wiring board, 11b, 11c ... Pair of electrodes, 11d, 11e ... Straight part, 11f, 11g ... Corner part, 12 ... Measurement control unit, 12a ... Measuring unit, 12b ... Control unit, 13 ... Wireless transmission unit, 14 ... Power supply unit, 15 ... Housing unit, 20 ... External monitoring device, 30 ... Server device, 50, 50a, 50b, 50c ... Diapers (inspected) (Things) 51 ... External surface, 62, 62a, 62b, 62c ... Care recipient (diaper wearer), 63 ... Nursing staff

Claims (8)

A moisture detection sensor that determines the water content of the diaper worn by the diaper wearer and outputs information about the determination result.
An external monitor device that receives information output by the moisture detection sensor via wireless communication with the moisture detection sensor and monitors and outputs the received information.
With
The moisture detection sensor is portable and is configured to be displaceable on the outer surface of the diaper or in the vicinity of the outer surface, and is arranged on the outer surface of the diaper or in the vicinity of the outer surface. A urination detection system that is configured to determine the water content of the diaper based on the condition. The urination detection system according to claim 1, wherein the moisture detection sensor and the external monitor device are configured to exchange information via short-range wireless communication having a communication distance of 1 m or less. The urination detection system according to claim 1 or 2, wherein the moisture detection sensor and the external monitor device are configured to exchange information via wireless communication that enables communication without requiring mutual authentication. .. With the plurality of the moisture detection sensors
With at least one external monitoring device shared for each moisture detection sensor,
The urination detection system according to any one of claims 1 to 3. According to claim 4, the moisture detection sensor and the external monitoring device are configured to exchange information via short-range wireless communication having a communication distance of 1/2 or less of the arrangement interval of each moisture detection sensor. The described urination detection system. The urination detection system according to any one of claims 1 to 5, wherein the external monitor device is configured to perform the monitor output by a display output. The urination detection system according to any one of claims 1 to 6, wherein the external monitor device is configured to output the monitor by sound output. It is equipped with a server device that manages information about the diaper wearer.
The urination according to any one of claims 1 to 5, wherein the external monitor device and the server device are configured to exchange information regarding the result of monitor output by the external monitor device via wireless communication. Detection system.

Images