JP6275473B2 - Wearing article - Google Patents

Description

  The present invention relates to a worn article for adults or infants.

  Conventionally, a disposable diaper for adults that includes a sensor for detecting urination and the like, for example, allows a caregiver to detect the presence or absence of urination of a cared person is known (Patent Documents 1 and 2). The disposable diaper described in Patent Document 1 includes a moisture sensor in which a pair of electrodes is formed by gravure printing using conductive glue as an ink. Moreover, the disposable diaper described in Patent Document 2 includes a plurality of electrode arrays in which a plurality of electrodes are arranged, and includes a detection device that detects urination based on an impedance change between the plurality of electrodes.

JP 2012-223386 A JP 2013-39158 A

  The disposable diaper described in Patent Document 1 is formed by printing on a sheet with a pair of electrodes using conductive glue as an ink. Therefore, the disposable diaper is soft and excellent in corrosion resistance, and has a resistance against the electrode surface. Since the rust treatment is unnecessary, the conductivity is hardly hindered and reliable urination detection can be expected.

  However, the moisture sensor provided in the disposable diaper described in Patent Document 1 is a sensor that detects only the presence or absence of urination, and is not a sensor that measures the amount of urination or the like with high accuracy.

  On the other hand, the detection device provided with the disposable diaper described in Patent Document 2 can measure the amount of urination with high accuracy and can also detect the spread of urine. However, in Patent Document 2, there is a description of an electrode disposed on a film surface that is an insulator as a plurality of electrodes included in the detection device, but what kind of material is used for the electrode and how it is formed. Is not specifically described.

  Therefore, this invention is providing the wearing article which can eliminate the fault which the prior art mentioned above has.

  The present invention is a wearing article that detects the spread of body fluid such as urine based on impedance changes between a plurality of electrode groups, and the electrode group is one of a plurality of sheets constituting the wearing article. Formed of at least two electrodes formed on the surface of the sheet and maintained insulated from each other when the body fluid spreads, and connected to each other via a conductive wire. A wearing article formed by applying a material is provided.

  According to the present invention, air permeability is not hindered and soft, and the spread of body fluid can be measured with high accuracy.

It is a perspective view of a wearing article which is a 1st embodiment of the present invention. FIG. 2 is a partially cutaway plan view of a state in which the wearing article shown in FIG. 1 is extended to remove another urine pad and the other sheet is exposed from the skin facing surface side. 3 is a cross-sectional view taken along line III-III in FIG. 4 is an enlarged cross-sectional view of another sheet shown in FIG. FIG. 5 is a block diagram illustrating a detailed configuration example of the data collection unit. FIG. 6 is a block diagram showing a detailed configuration example of the information processing means. FIG. 7 is a perspective view of a wearing article according to the second embodiment of the present invention. FIG. 8 is a partially broken plan view of the wearing article shown in FIG. 7 as viewed from the non-skin facing surface side. 9 is a cross-sectional view taken along line IX-IX in FIG.

Hereinafter, the wearing article of the present invention will be described based on the preferred first embodiment with reference to the drawings.
The wearing article of the present invention detects the spread of body fluid based on the impedance change between the electrodes. A wearing article 100A (hereinafter also referred to as “wearing article 100A”) according to a first preferred embodiment of the present invention, as shown in FIG. 1, is a urine absorption pad provided with an absorbent main body 5 having a vertically long absorbent body 4. 10 (absorbent article), a disposable diaper 30 disposed on the non-skin-facing surface side of the urine pad 10, and a separate and separate sheet 20 disposed between the disposable diaper 30 and the urine pad 10. I have.

As shown in FIG. 1, the wearing article 100 </ b> A can be divided into a ventral region A, a dorsal region B, and a crotch region C. Here, the abdominal area A is a part located on the abdomen side of the wearer at the time of wearing, the dorsal area B is a part located on the dorsal side of the wearer at the time of wearing, and the crotch area C is the abdomen area A. It is a part arranged between the dorsal region B.
The “Y direction” shown in the figure is a direction extending from the ventral region A to the dorsal region B or from the dorsal region B to the ventral region A, and the length of the urine collecting pad 10, the separate sheet 20, or the disposable diaper 30. It is also the same direction as the direction. The “X direction” shown in the figure is a direction orthogonal to the Y direction, and is also the same direction as the width direction of the urine collecting pad 10, the separate sheet 20, or the disposable diaper 30. The “Z direction” shown in the figure is also the same direction as the thickness of the urine pad 10, the separate sheet 20, or the disposable diaper 30.
Moreover, in this specification, a "skin opposing surface" is a surface distribute | arranged to the wearer's skin side at the time of wear among the front and back both surfaces of each member, such as the surface sheet 2 mentioned later which comprises the urine collection pad 10, for example The “non-skin facing surface” is, for example, a surface that is directed to the side opposite to the skin side of the wearer when worn, among the front and back surfaces of each member such as the surface sheet 2 that will be described later that constitutes the urine collecting pad 10 It is.
Furthermore, a line CL shown in the figure is a center line extending in the longitudinal direction (Y direction) of the urine collecting pad 10, the separate sheet 20, or the disposable diaper 30.

  The urine pad 10 of the wearing article 100A of the first embodiment includes a liquid permeable top sheet 2 disposed on the skin facing surface side, and a liquid permeable back sheet 3 disposed on the non-skin facing surface side. A vertically long absorbent main body 5 having an absorbent body 4 disposed between the two sheets 2 and 3 is provided. The urine collecting pad 10 will be described in detail. The top sheet 2, the back sheet 3, and the absorber 4 have a long rectangular shape in the longitudinal direction (Y direction) of the absorbent main body 5 as shown in FIGS. 1 to 3. ing. The top sheet 2 and the back sheet 3 respectively extend outward from left and right side edges along the longitudinal direction (Y direction) of the absorber 4 and front and rear end edges in the longitudinal direction (Y direction). As shown in FIG. 1, the surface sheet 2 has the same longitudinal dimension (Y direction) as the longitudinal direction (Y direction) of the back sheet 3, but as shown in FIG. The dimension in the direction (X direction) is smaller than the dimension in the width direction (X direction) of the back sheet 3. Each of the top sheet 2 and the back sheet 3 is formed directly on the extended portion extending outward from the peripheral edge of the absorbent body 4 or another member (a side that forms a three-dimensional gather 6 described later in the urine collecting pad 10). The sheet 61) is interposed, and is bonded to each other by an adhesive, heat fusion, or the like, and the absorber 4 is sandwiched and fixed. As shown in FIG. 3, the absorbent body 4 is formed by covering an absorbent core 41 formed by holding a water-absorbing polymer particle in an aggregate of fibers such as pulp fibers with a single core wrap sheet 42. Is formed.

  Moreover, in the urine collection pad 10 of the wearing article 100A of the first embodiment, as shown in FIGS. 1 and 3, the longitudinal direction (Y direction) of the absorbent main body 5 on the skin facing surface 5 u side of the absorbent main body 5. The water-repellent side sheets 61 are disposed and fixed on both side portions 5s and 5s, respectively. The free end portion 61f of the side sheet 61 has a three-dimensional shape that extends in the longitudinal direction (Y direction) of the absorbent main body 5. The elastic member 62 for gathering is disposed and fixed, and when worn, the free end 61f of the side seat 61 rises to form the three-dimensional gather 6 by the contraction force of the elastic member 62 for three-dimensional gathering. In other words, on both sides 5s and 5s along the longitudinal direction (Y direction) of the absorbent main body 5, the skin facing surface 5u side of the absorbent main body 5, that is, the skin facing surface 2u of the topsheet 2, is in the Y direction. A side sheet 61 having an elastic member 62 fixed in an elongated state is arranged and fixed on each side of the top sheet 2 over the entire length in the longitudinal direction (Y direction) of the absorbent main body 5. Thus, a pair of three-dimensional gathers 6 and 6 are formed. In addition, leg elastic members (not shown) for forming leg gathers are extended in the longitudinal direction (Y direction) on both side portions 5s, 5s along the longitudinal direction (Y direction) of the absorbent body 5 of the urine collecting pad 10. The leg gathers may be formed by contraction of the leg elastic members (not shown).

  As shown in FIGS. 1 to 3, the separate sheet 20 of the wearing article 100 </ b> A of the first embodiment is arranged on the non-skin facing surface side of the back sheet 3 of the urine collection pad 10, and the urine collection pad 10 and the disposable diaper 30 is a separate and independent sheet. In the first embodiment, the separate sheet 20 is formed in a rectangular shape that is long in the longitudinal direction (Y direction). When detecting the spread of the body fluid, the separate sheet 20 is preferably arranged at least over the crotch region C. In the wearing article 100A of the first embodiment, the outer peripheral edge is the urine collecting pad 10. It is narrower than the outer peripheral edge of the urine collecting pad 10 and narrower than the outer peripheral edge of the absorbent body 4 of the urine collecting pad 10. More specifically, in the longitudinal direction (Y direction), the separate sheet 20 substantially coincides with the length in the longitudinal direction (Y direction) of the absorbent body 4 of the urine collecting pad 10 and in the width direction (X direction). The length of the absorbent body 4 of the urine collecting pad 10 is shorter than the length in the width direction (X direction).

The wearing article of the present invention is such that the electrode is electrically conductive in at least two sections in which a body fluid spreads on the surface of one of a plurality of sheets constituting the wearing article and is insulated from each other. It is formed by applying a material, resulting in at least two electrodes. Each electrode is formed by applying a conductive material to the one sheet, and constitutes a group of electrodes connected to each other via a conductive wire (conductor) disposed on the sheet surface.
In the wearing article 100A of the first embodiment, the separate sheet 20 corresponds to “one sheet” among a plurality of sheets constituting the wearing article. More specifically, it is preferable that each of the electrode groups ET covers at least the crotch region C when detecting the spread of bodily fluids, and is preferably formed in a wide range from 2 to 32 in the X direction. It is preferable that 2 to 8 are formed. In the wearing article 100A of the first embodiment, on the skin facing surface 20u of the separate sheet 20, as shown in FIG. 2, from the entire area of the crotch region C to a part of the ventral region A and the dorsal region B, Four electrode groups ET1 to ET4 are formed. Each of the electrode groups ET1 to ET4 is provided with a plurality of electrodes 21 and a conductor 22 which is a conductor connecting the plurality of electrodes 21 to each other. In this way, each electrode group is formed with a plurality of electrodes 21, and a plurality of columns of the electrodes (in the first embodiment, four columns corresponding to the four electrode groups ET1 to ET4). By being formed, a plurality of sensor elements constituted by a pair of mutually insulated electrodes and the gap between them are formed in a wide range of the skin facing surface 20 u of the separate sheet 20. Each sensor element detects a change in impedance between the pair of electrodes. The sensor element is not accurate because AC, positive or negative half-wave, rectangular wave, triangular wave, etc. are applied, but in the following, for convenience, one of the paired electrodes is a positive electrode and the other is a negative electrode. Call.

  As shown in FIG. 2, it is preferable that 2 to 50 electrodes 21 are arranged in the longitudinal direction (Y direction) of the separate sheet 20, and 8 electrodes 21 are arranged in the wearing article 100A of the first embodiment. ing. The electrodes 21 adjacent to each other in the Y direction are arranged in the order of positive electrode, negative electrode, positive electrode,..., Or negative electrode, positive electrode, negative electrode,. Yes. Moreover, it is preferable that 1 to 16 electrodes 21 are arranged in the width direction (X direction) of the separate sheet 20, and two electrodes 21 are arranged in the wearing article 100A of the first embodiment. By arranging in this way, in the first embodiment, for convenience, 14 sensor elements are configured. The electrodes 21 adjacent in the X direction may be arranged in a relationship of a negative electrode with respect to the positive electrode and a positive electrode with respect to the negative electrode, but in the wearing article 100A of the first embodiment, with respect to the positive electrode. The positive electrode and the negative electrode are arranged in a negative electrode relationship. When either positive or negative half wave, rectangular wave, triangular wave, or the like is applied, one electrode may be grounded.

  Specifically, in the wearing article 100A of the first embodiment, four electrodes 21 are arranged in each of the four electrode groups ET1 to ET4. The plurality of electrodes 21 of each of the four electrode groups ET1 to ET4 are formed in the same rectangular shape and are formed in the same size. The electrode groups ET1 to ET4 are arranged in the width direction (X direction) of the separate sheet 20. The four electrodes 21a of the electrode group ET1 are positive electrodes and extend from the entire crotch region C to a part of the ventral region A and the dorsal region B in the longitudinal direction (Y direction) of the separate sheet 20. They are arranged at equal intervals. And the four electrodes 21a of the electrode group ET1 are connected via the linear conducting wire 22a distribute | arranged to the width direction (X direction) outer side from each electrode 21a. Further, the four electrodes 21b of the electrode group ET2 are negative electrodes and extend from the entire crotch region C to a part of the ventral region A and the dorsal region B in the width direction (X direction). Are arranged between the electrodes 21a and 21a of the adjacent electrode group ET1 in the longitudinal direction (Y direction) at the same position as the electrode group ET1. The four electrodes 21b of the electrode group ET2 are connected via linear conductive wires 22b arranged on the inner side (close to the center line CL) in the width direction (X direction) than each electrode 21b.

  The four electrodes 21c of the electrode group ET3 are positive electrodes, and extend from the entire crotch region C to a part of the ventral region A and the dorsal region B in the width direction (X direction) of the separate sheet 20. The electrode group ET1 is spaced from the electrode group ET1, and is arranged at equal intervals in the longitudinal direction (Y direction). And the four electrodes 21c of the electrode group ET3 are connected via linear conducting wires 22c arranged on the outer side in the width direction (X direction) than each electrode 21c. Further, the four electrodes 21d of the electrode group ET4 are negative electrodes, and extend from the entire crotch region C to a part of the ventral region A and the dorsal region B in the width direction (X direction) of the separate sheet 20. Are arranged between the electrodes 21c and 21c of the adjacent electrode group ET3 in the longitudinal direction (Y direction) at the same position as the electrode group ET3. The four electrodes 21d of the electrode group ET4 are connected to each other through linear conductors 22d arranged on the inner side (close to the center line CL) in the width direction (X direction) than each electrode 21d.

The rectangular electrode 21a of the electrode group ET1 has a length in the Y direction of about 1 mm to 100 mm and a length in the X direction of about 3 mm to 150 mm. The same applies to the electrodes 21b to 21d of the other electrode groups ET2 to ET4.
The distance between the electrode 21a of the electrode group ET1 and the electrode 21b of the electrode group ET2 adjacent in the longitudinal direction (Y direction) is about 1 mm to 50 mm.
The shape (design), size, and arrangement interval of each electrode 21 are not limited to the above embodiment.

  Each electrode of the electrode group is formed by applying a conductive material to a sheet of a material conventionally used for a worn article. That is, in the wearing article 100 </ b> A of the first embodiment, the electrodes of the four electrode groups ET <b> 1 to ET <b> 4 are formed by applying a conductive material to the skin facing surface 20 u of the separate sheet 20. More specifically, first, as shown in FIGS. 2 and 4, the insulating ink is applied to an area wider than the area where all the electrodes are to be formed on the skin facing surface 20 u of the rectangular separate sheet 20 extending in the Y direction. A rectangular lower insulating layer 25 that is long in the Y direction is formed by printing. Examples of the insulating ink include acrylic resins, urethane resins, epoxy resins, polyimide resins, and polyethylene resins.

  Next, ink made of a conductive material is applied to the skin facing surface of the lower insulating layer 25 by printing to form the electrode 21 and the conductive wire 22. That is, the four electrodes 21a of the electrode group ET1, the four electrodes 21b of the electrode group ET2, the four electrodes 21c of the electrode group ET3, the four electrodes 21d of the electrode group ET4, and the conducting wire 22a of the electrode group ET1 The conductor 22b of the electrode group ET2, the conductor 22c of the electrode group ET3, and the conductor 22d of the electrode group ET4 are printed within the range of the outer peripheral edge of the lower insulating layer 25. Examples of the conductive material of the ink include those containing carbon powder as a main component, or those containing a metal powder such as silver or copper, and are metal detectors because they are not expensive (not cheap) or metal. From the viewpoint of preventing malfunctions such as security gates and crime prevention gates, those containing carbon powder as a main component are preferably used. Examples of the ink made of a conductive material include a mixture in which carbon nanotubes, a dispersant, a binder, a resin, a curing agent, and the like are mixed. The conductive material of the electrode 21 and the conductive material of the conductive wire 22 are preferably the same, but may be different. If they are different, after applying the ink made of a conductive material to form the electrode 21, the ink made of a different conductive material is applied by printing to form the conductor 22, or the ink made of the conductive material is applied by printing Then, after forming the conductive wire 22, the electrode 21 can be formed by applying ink made of different conductive materials by printing. Even when the conductive material is the same, it can be formed similarly.

  When the electrode 21 is formed by applying ink made of a conductive material by printing, printing may be performed only once, but printing may be performed a plurality of times from the viewpoint of body fluid discharge detection sensitivity. The number of times of repeated printing is preferably 1 to 10 times.

  Next, an insulating ink is applied to the skin-facing surface of each conductor 22 by printing so as to cover each conductor 22, thereby forming the upper insulating layer 26. As the insulating ink for the upper insulating layer 26, the same ink as the insulating ink for the lower insulating layer 25 can be used. In the wearing article 100 </ b> A of the first embodiment, the lower insulating layer 25 is disposed on the non-skin facing surface of all the electrodes 21 and all the conducting wires 22, and the upper insulating layer 26 is disposed on the skin facing surface of all the conducting wires 22.

  Each electrode group is connected to a terminal for connecting to an electronic device. Specifically, in the ventral region A of another sheet 20 having an electrode group, the lead wire 22a that connects the electrodes 21a, 21a,... Of the electrode group ET1 and the electrodes 21c, 21c,. The conducting wire 22c is continuous through the terminal 23. That is, the electrode group ET1 and the electrode group ET3 are connected to the terminal 23. Further, in the ventral region A of another sheet 20 having an electrode group, the conductive wires 22b, 22b... Connecting the electrodes 21b, 21b... Of the electrode group ET2 and the electrodes 21d, 21d. The connecting wire 22d is continuous via the terminal 24. That is, the electrode group ET2 and the electrode group ET4 are connected to the terminal 24. As the terminals 23 and 24, any cooperating male and female such as metal connectors or conductive snaps, fasteners, hook-and-loop fasteners (magic tape (registered trademark), etc.), screws, hooks, biting fasteners, etc. A member is mentioned and metal snaps are used in the wearing article 100A of the first embodiment. The data collecting means 27, which is an electronic device, is fixed to the ventral region A of another sheet 20 having an electrode group via the metal snap. If the terminal 23 or 24 is not a male or female member, a conductive terminal is clipped, a stapler, a string, a crab, a kanikan, a clasp such as hikiwa, a conductive adhesive, a conductive double-sided adhesive tape, heat, a conductive fiber / thread, etc. It is also possible to connect by using a method such as tying, hooking, or sewing. The position of the terminal is not limited to the ventral side, and may not be on the separate sheet 20.

The other sheet 20 to which the ink is applied is made of a material conventionally used for wearing articles, specifically, non-woven fabric such as spunbond, spunlace, air-through, woven fabric, knitted fabric, plastic, etc. The film etc. which are made are mentioned. In addition, when using a spunbonded nonwoven fabric as the separate sheet 20, the basis weight thereof is preferably 5 g / m ² or more and 100 g / m ² or less, more preferably 10 g / m ² or more and 80 g / m ² or less.

  Examples of printing that applies ink include inkjet printing, rotary printing, flexographic printing, screen printing, and gravure printing.

  As described above, the separate sheet 20 having the plurality of electrode groups ET1 to ET4 is formed by applying ink, so that it is softly formed, and the bending rigidity value in the MD direction of the sheet is preferably 10 g. It is 80 g or less, more preferably 15 g or more and 60 g or less, and the bending stiffness value in the CD direction of the sheet is preferably 5 g or more and 60 g or less, more preferably 10 g or more and 40 g or less. The bending stiffness value can also be measured by a handometer, a taber tester, a KES bending tester, or the like. In addition, MD direction means the machine direction (flow direction) at the time of manufacture of a nonwoven fabric etc., and CD direction means the direction orthogonal to the machine direction at the time of manufacture of a nonwoven fabric etc. The measurement sample was measured at a length of 17 cm in the MD direction and from 8 cm to 9 cm in the CD direction.

Further, the separate sheet 20 having a plurality of electrode groups ET1 to ET4 has an air permeability of preferably 10 μm / Pa · s or more and 1500 m / kPa · when the separate sheet 20 of the raw material has air permeability. or less, and more preferably 20 μm / Pa · s or more and 800 m / kPa · s or less.
The air permeability is obtained as the reciprocal of the airflow resistance measured by AUTOMATIC AIR-PERMEABILITY TESTER KES-F8-AP1 (breathability tester) manufactured by Kato Tech. A thing with small air permeability may be calculated | required from the measured value of a galley densometer.

  Since the four electrode groups ET1 to ET4 each having four electrodes 21 by applying ink as described above are formed on the skin facing surface 20u of the separate sheet 20, a plurality of sensor elements are provided on the separate sheet 20. It will be comprised in the skin opposing surface 20u. Each sensor element changes the impedance between the electrode 21a (positive electrode) of the electrode group ET1 and the electrode 21b (negative electrode) of the electrode group ET2, and the electrode 21c (positive electrode) and electrode group ET4 of the electrode group ET3. Change in the impedance between the electrode 21d (negative electrode) of the electrode group, the change in impedance between the electrode 21a (positive electrode) of the electrode group ET1 and the electrode 21d (negative electrode) of the electrode group ET4, and the electrode of the electrode group ET3 The change in impedance between 21c (positive electrode) and the electrode 21b (negative electrode) of the electrode group ET2 is measured, and the spread of body fluid such as urine is detected based on the change in impedance. For example, the spread of body fluid such as urine is calculated by the information processing means 28 using the data collected by the data collecting means 27 fixed to the separate sheet 20. Hereinafter, the data collection unit 27 and the information processing unit 28 will be described in detail.

As shown in FIG. 5, the data collection unit 27 includes a voltage control unit 271, an acceleration sensor 272, and a data logger 273.
The voltage control means 271 applies a rectangular wave voltage of, for example, 400 kHz to 700 kHz to the entire electrode circuit formed on the separate sheet 20, and detects a change in impedance between the electrodes 21 constituting the sensor element. The voltage control unit 271 converts the impedance change between the electrodes per unit time into an output of a voltage value, and outputs and stores it in the data logger 273 for each unit time. The unit time is preferably 0.1 to 60 seconds, more preferably 0.2 to 20 seconds.

  The acceleration sensor 272 detects (collects) accelerations in the X direction, the Y direction, and the Z direction due to the displacement of the user, and outputs the detection results to the data logger 273 for storage.

  The data logger 273 is an electronic measuring instrument that stores data acquired from the voltage control unit 271 and the acceleration sensor 272. The data logger 273 transfers the stored data to the information processing unit 28 in response to a request from the information processing unit 28 or when it is detected that it is connected to the information processing unit 28.

  The information processing means 28 is, for example, a computer and includes a CPU (Central Processing Unit), ROM (Read Only Memory), RAM (Random Access Memory), HDD (Hard Disk Drive), etc. As shown, the data acquisition means 281, body fluid discharge amount calculation means 282, body fluid discharge time calculation means 283, and body fluid discharge speed calculation means 284 are configured.

  When the data acquisition unit 281 is connected to the data collection unit 27 via a cable, the data acquisition unit 281 acquires data stored in the data logger 273 of the data collection unit 27, and calculates a body fluid discharge amount calculation unit 282 and a body fluid discharge time calculation. The result is supplied to the means 283, and the calculation results are supplied to the body fluid discharge speed calculation means 284.

  The body fluid discharge amount calculation unit 282 calculates the body fluid discharge amount based on the data acquired from the data acquisition unit 281. The body fluid discharge time calculation unit 283 calculates the body fluid discharge time based on the data acquired from the data acquisition unit 281. The bodily fluid discharge speed calculating means 284 calculates the bodily fluid discharge speed based on the data acquired from the bodily fluid discharge amount calculating means 282 and the data acquired from the bodily fluid discharge time calculating means 283.

  According to the separate sheet 20 having the electrodes configured as described above, the data collecting means 27, and the information processing means 28, the data collected by the data collecting means 27 is acquired, and the information processing means 28 causes the body fluid to spread. The body fluid discharge amount, body fluid discharge time, and body fluid discharge speed can be calculated.

Next, the disposable diaper 30 disposed on the non-skin facing surface side of the urine collecting pad 10 will be described in detail.
As shown in FIG. 1, the disposable diaper 30 includes a diaper top sheet 32 to which the urine collecting pad 10 is attached, a diaper back sheet 33 arranged on the most non-skin facing side, and a space between the two sheets 32 and 33. And a diaper absorber 34 disposed on the diaper. Moreover, the disposable diaper 30 distribute | arranges the diaper leg elastic member (not shown) for leg gather formation in the expansion | extension state to a longitudinal direction (Y direction) outward of the width direction (X direction) of the absorber 34 of a diaper, A diaper leg gather 35 is formed by contraction of the diaper leg elastic member (not shown).

  As shown in FIG. 1, the diaper absorber 34 is wider than, for example, the urine collection pad 10 used on the skin-facing surface (inner side) of the disposable diaper 30, and the left and right side edges and the back of the ventral region A. The left and right side edges of the side region B extend outward in the width direction (X direction) from the left and right side edges of the crotch region C. The left and right side edges of the crotch region C are curved in an arc shape inward in the width direction (X direction), and the central part in the longitudinal direction (Y direction) is constricted inward as a whole. Yes. In addition, the absorbent body 34 of the diaper is composed of an absorbent core in which water absorbent polymer particles are held in an aggregate of fibers such as pulp fibers, like the absorbent body 4 of the urine pad 10. It is formed by covering with a sheet.

  The front sheet 32 of the diaper and the back sheet 33 of the diaper extend outward from the left and right side edges along the longitudinal direction (Y direction) of the diaper absorber 34 and the front and rear end edges in the longitudinal direction (Y direction), respectively. The diaper absorber 34 is bonded to each other directly by an adhesive, heat fusion, or the like at the extending portion extending outward from the periphery of the diaper absorber 34, and the diaper absorber 34 is sandwiched and fixed.

  As shown in FIG. 1, the disposable diaper 30 formed as described above has a shape in which a central portion in the longitudinal direction (Y direction) is inwardly bound as a whole. The disposable diaper 30 is a so-called unfolded diaper, and two pairs of fastening tapes 36 and 36 are provided on the left and right side edges of the dorsal region B, and on the outer surface (non-skin facing surface) of the ventral region A, A landing tape (not shown) for fastening the fastening tapes 36, 36 is provided.

A material for forming the urine pad 10 and the disposable diaper 30 included in the wearing article 100A of the first embodiment will be described.
The surface sheet 2 of the urine pad 10 and the surface sheet 32 of the disposable diaper 30 and the absorbent body 4 of the urine pad 10 and the absorbent body 34 of the disposable diaper 30 have been conventionally used as disposable diapers and sanitary diapers, respectively. What is used for absorbent articles, such as a napkin, can be used without a restriction | limiting in particular. For example, as the surface sheet 2 and the surface sheet 32 of the diaper, a hydrophilic and liquid-permeable nonwoven fabric, a three-dimensional aperture film, or the like can be used. In addition, as the absorbent core 41 constituting the absorbent body 4 and the absorbent core constituting the absorbent body 34 of the diaper, a structure in which absorbent polymer particles are held in an aggregate of fibers such as pulp fibers can be used. The core wrap sheet 42 constituting the absorbent body 4 and the core wrap sheet constituting the absorbent body 34 of the diaper are hydrophilic sheets, for example, core wrap made of water-permeable thin paper (tissue paper) or water-permeable nonwoven fabric. A sheet or the like can be used. In addition, as the water-repellent side sheet 61 which comprises the three-dimensional gather 6, a nonwoven fabric, a woven fabric, or the laminated sheet of a nonwoven fabric and a film etc. can be used.

  In addition, as the back sheet 3 of the urine pad 10 and the back sheet 33 of the disposable diaper 30, a liquid film having poor liquid permeability (including water repellency), or a nonwoven fabric (for example, a variety of manufacturing methods) An air-through nonwoven fabric, a spunbond nonwoven fabric, a spunlace nonwoven fabric, a needle punched nonwoven fabric, or the like can be used. Here, the liquid impermeability includes liquid impermeability. Since the liquid-impervious back sheet exists between the absorber 4 and the electrode, the electrodes remain insulated from each other even when the body fluid spreads. The electrode group having an electrode for detecting bodily fluid discharge by directly contacting with a bodily fluid has to be disposed in the absorbent body, for example, on the skin-facing surface side of the back sheet of the urine collecting pad due to its nature. Although the separate sheet 20 having the electrode included in the wearing article 100A needs to be disposable every time, the electric lines of force from the electrode pass through the absorber from the surface of the electrode even if the electrode does not directly contact urine. As a result, the impedance change of the absorber due to the body fluid can be captured as a result, and urination can be detected. Therefore, the separate sheet 20 having electrodes can be arranged on the non-skin facing surface side than the back sheet of the urine collecting pad, is difficult to wet with body fluid, and can be used repeatedly hygienically.

  Further, the members constituting the urine pad 10 and the disposable diaper 30 can be fixed using an adhesive or heat fusion. As the adhesive, any adhesive that can be used for absorbent articles such as disposable diapers can be used without particular limitation. For example, a hot melt adhesive can be used. Examples of the hot melt adhesive include blocks such as styrene-isoprene-styrene block copolymer (SIS), styrene-butadiene-styrene block copolymer (SBS), and styrene-ethylene-butylene-styrene copolymer (SEBS). Copolymer-based hot melt adhesives may be mentioned. As heat fusion, if it is used for absorbent articles, such as a disposable diaper, it can use without a restriction | limiting especially, For example, a high frequency seal | sticker and an ultrasonic seal | sticker can be used.

  As the elastic member 62 for forming the three-dimensional gathers of the urine pad 10 and the diaper leg elastic member (not shown) for forming the leg gathers 35 of the disposable diaper 30, natural rubber, polyurethane, polystyrene-polyisoprene copolymer, polystyrene- A thread-like stretchable material made of a polybutadiene copolymer, a polyethylene-α-olefin copolymer such as ethyl acrylate-ethylene, or the like can be used.

The effect at the time of using 100 A of wearing articles of 1st Embodiment of this invention mentioned above is demonstrated.
As shown in FIG. 1, the wearing article 100 </ b> A according to the first embodiment includes another sheet 20 having electrode groups ET <b> 1 to ET <b> 4 between the urine collecting pad 10 and the disposable diaper 30, It is used by being arranged so as to be in contact with the pad 10. By being arranged and used in this manner, the disposable diaper 30 presses the separate sheet 20 having the electrode groups ET1 to ET4 and the urine collecting pad 10, and the urine collecting pad 10 comes into contact with the wearer, and the electrode group ET1. Another sheet 20 having ˜ET4 is fixed between the disposable diaper 30 and the urine collecting pad 10. And, for example, when there is urination in the wearing article 100A and the body fluid is absorbed by the urine collecting pad 10, the impedance of the sensor element of the separate sheet 20 having the electrode groups ET1 to ET4 corresponding to the site where the body fluid is discharged is obtained. It changes a lot. That is, when body fluid discharge is large and spreads over a wide range, the impedance of a considerable number of sensor elements in the electrode groups ET1 to ET4 changes significantly. Then, the voltage control means 271 of the data collection means 27 outputs a voltage signal of the total amount of change in impedance of the plurality of sensor elements, and the information processing means 28 outputs the body fluid discharge amount, body fluid discharge time, In addition, the body fluid discharge speed can be accurately detected.

  In addition, the wearing article 100A of the first embodiment is formed softly because the separate sheet 20 having the plurality of electrode groups ET1 to ET4 is formed by applying ink. Therefore, even if the separate sheet 20 having the electrode groups ET1 to ET4 is disposed between the urine collecting pad 10 and the disposable diaper 30 and used, there is little discomfort and the usability is improved.

  Moreover, since the separate sheet | seat 20 which has several electrode group ET1-ET4 is apply | coated and formed in the wearing article 100A of 1st Embodiment, air permeability is hold | maintained. Therefore, even if another sheet 20 having the electrode groups ET1 to ET4 is disposed between the urine collecting pad 10 and the disposable diaper 30, the air permeability is hardly hindered and the usability is improved.

  In addition, in the wearing article 100A of the first embodiment, since the electrode 21 and the conductive wire 22 are formed by applying ink to the separate sheet 20 by printing, the shape, design, color, etc. of the electrode 21 and the conductive wire 22 can be freely set. The design can be changed.

  Next, a wearing article 100B according to a second embodiment of the present invention will be described. As shown in FIG. 7, the wearing article 100 </ b> B of the second embodiment does not include the urine collecting pad 10 and the separate separate sheet 20, and is formed of only the disposable diaper 30. About the wearing article 100B of 2nd Embodiment, a different point from 100 A of wearing articles of 1st Embodiment is mainly demonstrated, the same code | symbol is attached | subjected about the same point, and description is abbreviate | omitted. About the point which does not mention especially, description regarding 100 A of wearing articles of 1st Embodiment is applied suitably. Moreover, about the effect of the wearing article 100B of 2nd Embodiment, a different point from the effect of the wearing article 100A of 1st Embodiment is demonstrated, The point which is not demonstrated in particular is the same as the effect of 100 A of wearing articles, and a wearing article The description of the effect of 100A is applied as appropriate.

  As described above, the wearing article 100B according to the second embodiment is formed of only the disposable diaper 30 as shown in FIG. The electrode group consists of a plurality of electrodes formed by applying a conductive material to the surface of one of the plurality of sheets constituting the wearing article 100B. In the wearing article 100B of the second embodiment, as shown in FIG. 8, the back sheet 33 of the diaper corresponds to “one sheet” among a plurality of sheets constituting the wearing article. Specifically, in the wearing article 100B of the second embodiment, the back sheet 33 of the diaper is a sheet obtained by laminating a nonwoven fabric 332 on the resin film 331, and the four electrode groups ET1 to ET4 are the back sheets 33 of the diaper. It forms in the non-skin opposing surface 331d of the resin film 331 to comprise, and a some sensor element comes to be comprised in the non-skin opposing surface 331d of the resin film 331 of the back sheet 33 of a diaper. And four electrode groups ET1-ET4 formed in the non-skin opposing surface 331d of the resin film 331 of the back sheet 33 of a diaper are covered with the nonwoven fabric 332.

  In the wearing article 100B of the second embodiment, each of the four electrode groups ET1 to ET4 includes a plurality of electrodes formed by applying a conductive material to the non-skin facing surface 331d of the resin film 331. . Specifically, without forming the lower insulating layer 25 as in the wearing article 100A of the first embodiment, directly on the non-skin facing surface 331d of the resin film 331 constituting the back sheet 33 of the diaper long in the Y direction, The electrode 21 and the conductive wire 22 are formed by applying ink made of a conductive material by printing. That is, the four electrodes 21a of the electrode group ET1, the four electrodes 21b of the electrode group ET2, the four electrodes 21c of the electrode group ET3, the four electrodes 21d of the electrode group ET4, and the conducting wire 22a of the electrode group ET1 The conductor 22b of the electrode group ET2, the conductor 22c of the electrode group ET3, and the conductor 22d of the electrode group ET4 are printed on the non-skin facing surface 331d of the resin film 331.

  Next, the resin film 331 and the nonwoven fabric 332 are fixed to form a laminated sheet so as to cover the entire area of the electrode groups ET1 to ET4 with the nonwoven fabric 332 constituting the back sheet 33 of the diaper. In addition, in the wearing article 100B of 2nd Embodiment, the upper insulating layer 26 is not formed in the skin opposing surface of each conducting wire 22. FIG.

  Moreover, the disposable diaper 30 which is the wearing article 100B of 2nd Embodiment is arrange | positioned and fixed to each side part along the longitudinal direction (Y direction) of the disposable diaper 30, as shown in FIG.7, FIG.9. The side sheet 37 is provided with an elastic member 38 for forming a three-dimensional gather extending in the longitudinal direction (Y direction) on the free end 37f of the side sheet 37. The free end portion 37 f of the side seat 37 rises due to the contraction force of the elastic member 38 and forms a three-dimensional gather 39. In other words, the both sides along the longitudinal direction (Y direction) of the disposable diaper 30 are fixed in a stretched state in the Y direction on the skin facing surface side of the disposable diaper 30, that is, the skin facing surface of the top sheet 32 of the diaper. A side sheet 37 having an elastic member 38 is disposed and fixed to each of both side portions of the top sheet 32 of the diaper over the entire length in the longitudinal direction (Y direction), thereby a pair of three-dimensional gathers 39, 39. Is formed.

  As the side sheet 37, the same forming material as the water-repellent side sheet 61 constituting the three-dimensional gather 6 included in the wearing article 100A of the first embodiment can be used. Moreover, as the elastic member 38 for forming a three-dimensional gather, the same forming material as the elastic member 62 for forming a three-dimensional gather constituting the three-dimensional gather 6 included in the wearing article 100A of the first embodiment can be used.

  About the effect of the wearing article 100B of 2nd Embodiment, while there exists an effect similar to the effect of 100 A of wearing articles, each of four electrode groups ET1-ET4 is further directly on the non-skin opposing surface 331d of the resin film 331. Since it is formed, it is possible to produce a product with good sensitivity for detecting discharged body fluid at a low cost.

  The wearing article of the present invention is not limited to the wearing articles 100A to 100B of the first and second embodiments described above, and can be changed as appropriate. Moreover, each component in the wearing article 100A-100B of the above-mentioned 1st-2nd embodiment can be implemented in combination suitably in the range which does not impair the meaning of this invention.

  For example, as shown in FIG. 1, the wearing article 100 </ b> A described above is used by disposing another sheet 20 having electrode groups ET <b> 1 to ET <b> 4 between the urine pad 10 and the disposable diaper 30. Instead of the diaper 30, a urine collecting pad 10 and another sheet 20 that can be fixed to the human body, such as underwear such as briefs, shorts, girdle, paper pants, and rehabilitation pants, may be used.

  In the above-described wearing article 100A, the urine pad 10, the separate sheet 20, and the separate sheet 20 of the disposable diaper 30 correspond to "one sheet" among a plurality of sheets constituting the worn article. In the wearing article 100B described above, the back sheet 33 of the disposable diaper 30 corresponds to “one sheet” of the plurality of sheets constituting the wearing article, but is not limited thereto. Specifically, as “one sheet” of the plurality of sheets constituting the wearing article, the top sheet 2, the back sheet 3, the core wrap sheet 42 of the absorbent body 4 constituting the urine collecting pad 10, or The side sheet 61 of the three-dimensional gather 6, or the top sheet 32 of the diaper constituting the disposable diaper 30, the back sheet 33 of the diaper, the core wrap sheet constituting the absorbent body 34 of the diaper, or the side sheet 37 of the three-dimensional gather 39 are listed. It is done. When it is disposed in a place where it touches body fluid, it is preferable to provide an insulating layer or a waterproof layer on the skin facing surface so that the body fluid does not touch the sheet directly. In addition, as "one sheet", from the viewpoint of preventing the contamination of the electrode group ET, another sheet 20, which is disposed on the non-skin facing surface side of the urine collecting pad 10 from the liquid-impermeable back surface sheet 3, A diaper top sheet 32 and a diaper back sheet 33 constituting the disposable diaper 30 are preferable.

  Moreover, in 1st Embodiment of 100 A of wearing articles mentioned above, although the separate sheet 20 is formed in the rectangular shape, the shape of the separate sheet 20 is not limited to a rectangular shape.

  Moreover, in the wearing article 100A described above, the electrode group is formed on the skin facing surface 20u of the separate sheet 20, but may be formed on the non-skin facing surface of the separate sheet 20. Moreover, in the wearing article 100B mentioned above, although the electrode group is formed in the non-skin opposing surface 331d of the resin film 331 of the back sheet 33 of the disposable diaper 30, the skin opposing surface of the resin film 331 and the back sheet 33 are provided. The nonwoven fabric 332 may be formed on the skin facing surface or the non-skin facing surface of the nonwoven fabric 332.

  In the above-described wearing article 100A, the upper insulating layer 26 is formed by applying insulating ink to the skin facing surface of each conductor 22 by printing so as to cover each conductor 22. The area where the ink is applied by printing can also be expanded so as to cover the electrode 21 as well. Further, the upper insulating layer 26 is not necessarily formed by applying an insulating ink, and may cover the conductive wires 22 or the electrodes 21 by attaching an insulating sheet or the like. The insulation layer may be formed so as to cover only the electrode 21 with a so-called covered electric wire wrapped around.

  The above-mentioned wearing article 100A includes the urine collecting pad 10, the separate sheet 20, and the disposable diaper 30, and the above-described wearing article 100B includes the disposable diaper 30, but the urine collecting pad 10 and the disposable diaper 30. Instead of other absorbent articles such as sanitary napkins. Therefore, the wearing article of the present invention can detect the spread of body fluids other than urine, such as menstrual blood.

  The wearing article of the present invention may be an wearing article for adults or infants.

100A, 100B Wearable article 10 Urine pad 2 Top sheet 3 Back sheet 4 Absorber 41 Absorbent core 42 Core wrap sheet 5 Absorbent body 6 Solid gather 61 Side sheet 20 Separate sheet ET Electrode group 21 Electrode 22 Conductive wire 23, 24 Terminal 25 lower insulating layer 26 upper insulating layer 27 data collecting means 28 information processing means 30 disposable diaper 32 diaper top sheet 33 diaper back sheet 34 diaper absorber 36 fastening tape 37 side sheet 38 elastic member 39 three-dimensional gather A dorsal region , B ventral region, C inseam region

Claims (11)

A wearing article that detects the spread of bodily fluids based on impedance changes between a plurality of electrode groups,
The electrode group is formed on the surface of one of a plurality of sheets constituting the wearing article, and maintains an insulated state when body fluid spreads and is connected to each other via a conductor. Consisting of at least two electrodes,
The electrode is formed by applying a conductive material to the one sheet,
The electrode groups are respectively connected to terminals for fixing and connecting data collecting means which is an electronic device equipped with an acceleration sensor in the ventral region of the one sheet, and the terminals are made of metal. A worn article that is a snap. The wearing article according to claim 1 , wherein the conductive wire is formed by applying a conductive material to the one sheet, and the metal snap is attached to the conductive wire .   The wearing article according to claim 1 or 2, wherein the conductive material of the electrode and the conductive material of the conducting wire are the same.   The wearing article according to claim 1, wherein the conductive material contains carbon powder as a main component. The wearing article includes a liquid-permeable top sheet, a liquid-impermeable back sheet, and an absorbent main body having an absorber disposed between the two sheets.
The one sheet is the back sheet,
The said electrode is a wearing article of any one of Claims 1-4 currently formed in the non-skin opposing surface of the said back surface sheet. The wearing article includes an absorbent article having an absorbent main body including a liquid-permeable top sheet, a liquid-impermeable back sheet, and an absorber disposed between the two sheets.
The one sheet is another sheet arranged on the non-skin facing surface side than the back sheet,
The wearing article according to any one of claims 1 to 4, wherein the electrode is formed on one surface of the separate sheet. The wearing article comprises an absorbent article having the absorbent main body,
The wearing article according to claim 6, wherein the separate sheet is a separate sheet from the absorbent article arranged on the non-skin facing surface side of the absorbent article with respect to the non-skin facing surface side. The absorbent article is a urine pad;
The separate sheet is a constituent sheet of a disposable diaper disposed on the non-skin facing surface side of the urine removing pad, or a separate independent sheet disposed between the disposable diaper and the urine absorbing pad. Or the wearing article of 7.   The said conducting wire consists of the said electrically-conductive material apply | coated within the range of the lower insulating layer formed in the sheet | seat surface, The upper insulating layer is formed so that this conducting wire may be covered. Wearing article as described in.   The said electrode consists of the said electrically-conductive material apply | coated within the range of the lower insulating layer formed in the surface of a sheet | seat, The upper insulating layer is formed so that this electrically-conductive material may be covered. The wearing article according to item 1.   The wearing article according to claim 9 or 10, wherein the upper insulating layer and the lower insulating layer are made of an insulating ink.

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