JP2002159523A - Excretion detector - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an excretion detector that can obtain an unattended time after excretion closely related to skin irritation, determine the risk of skin irritation according to the unattended time, and develop preventive measures against skin irritation from the determination result. SOLUTION: The excretion detector has a continuity sensor 1 for detecting the presence and absence of excretion in an absorptive article, a voltage buildup and drop detecting means 56 for detecting excretion time at which excretion occurs and change time at which the absorptive article is changed after the excretion according to the detection output of the continuity sensor 1, an unattended time calculating means 58 for calculating the unattended time from the excretion to the change of the absorptive article according to the excretion time and the change time detected by the voltage buildup and drop detecting means 56, and a skin irritation risk determining means 59 for determining the risk of skin irritation due to the excretion according to the unattended time calculated by the unattended time calculating means 58.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an excretion detecting device for detecting the excretion of absorbent articles such as diapers and urine absorbing pads.

[0002]

2. Description of the Related Art Bedridden incontinent patients (hereinafter referred to as care recipients) are hospitalized in nursing care facilities and the like.
Caregivers regularly change diapers of care recipients, such as changing the diapers at a predetermined time at a rate of up to eight times.

However, when the diaper of the care recipient is to be replaced at a predetermined time, the diaper may not be urinated, and the diaper may not need to be replaced. Also, after urinary incontinence, if diapers are not properly replaced,
It is uncomfortable and unsanitary for care recipients. In addition, since the care recipients who are cared receive an exchange check more than necessary, it is a mental burden.

[0004] Furthermore, a care recipient who has excreted immediately after changing diapers has to wait for diaper changing with excrement until the diaper is changed. If the leaving time after excretion becomes long, local moistening due to urine, stool, etc. continues, the tissue macerates, and tissue damage is promoted. Particularly in elderly people, since the skin has poor permeability, tissue damage is more likely to occur, and the skin is more likely to be rough. In addition, when left in an unsanitary state, skin infections and dermatitis are likely to occur. In a diaper containing a water-absorbing polymer, it is known that the polymer absorbs water and becomes hard, causing local compression and causing pressure so that it was not a favorable situation. In order to solve such a situation, a conventional excretion sensor has been proposed which notifies a caregiver of excretion immediately after excretion.

On the other hand, as a conventional technique of this type, for example, a diaper sensor described in Japanese Patent Application Laid-Open No. H11-295250 is known. The diaper sensor does not detect a minute amount of urination, and detects urination and defecation separately. Also, Japanese Patent Laid-Open No. 5-2
A urinary incontinence condition recording apparatus described in Japanese Patent No. 45169 is known. This urinary incontinence condition recording apparatus automatically records a urinary incontinence pattern of a urinary incontinence patient. Also,
A method for creating a urination chart described in JP-A-11-56826 is known. This method of creating a urination chart is to detect urination, obtain a urination time by a time measuring means, and create a urination chart from the urination time.

[0006]

However, the use of an excretion sensor that informs a caregiver of excretion immediately after excretion puts a burden on the caregiver, for example, because it is complicatedly called.
For this reason, once the use of the excretion sensor is considered, it is often not used, and there has been a demand for a system that detects the state of excretion while performing normal work.

[0007] Also, home care households have the same problems as the above-mentioned problems in care facilities. Under such circumstances, it has been desired to propose optimal excretion care by knowing the leaving time from excretion to diaper replacement, which is closely related to rough skin.

Further, a diaper sensor described in JP-A-11-295250, a urinary incontinence condition recording apparatus described in JP-A-5-245169, and a JP-A-11-5
In the method of creating a urination chart described in Japanese Patent No. 6826, attention is paid to the excretion time, and there is no description about detection of a standing time from excretion to diaper change or detection of diaper change.

The present invention provides an excretion detecting device which obtains a leaving time after excretion closely related to rough skin, determines the risk of rough skin based on the leaving time, and can take measures for preventing rough skin based on the determination result. The task is to provide.

[0010]

SUMMARY OF THE INVENTION In order to solve the above-mentioned problems, the present invention relates to an excretion detecting device for detecting the presence or absence of excretion in an absorbent article for absorbing excrement, the apparatus comprising: Excretion detecting means for detecting the presence or absence of excretion, time detecting means for detecting the excretion time at which excretion occurred and the exchange time at which the absorbent article was replaced after excretion based on the detection output of the excretion detection means, A leaving time calculating unit that calculates a leaving time from excretion to replacement of the absorbent article based on the time and the replacement time, and a rough skin risk determining unit that determines a risk of rough skin due to the excretion based on the leaving time. It is characterized by having.

[0011]

DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the excretion detecting device according to the present invention will be described below with reference to the drawings.

(First Embodiment) The excretion detecting device according to the first embodiment shown in FIG. 1 has a conductive sensor 1 having a conductive pattern and detecting the presence or absence of excretion by the conductive pattern.
It has a transmitting device 30 and a receiving device 50, and detects the presence or absence of excretion in the absorbent article.

The transmitting device 30 includes a conduction detecting means 31 for detecting an output of the conduction sensor 1 and a voltage output generating means 3 for converting a detection output of the conduction detecting means 31 into a rectangular voltage output waveform.
2. Leaving time calculating means 41 for calculating the leaving time after excretion from the voltage output waveform of the voltage output generating means 32, display means 33 for displaying the leaving time, and wirelessly receiving the signal of the voltage output waveform of the voltage output generating means 32. It has a transmitter 34 for transmitting to the device 50. The display means 33 includes a liquid crystal display,
It is a segment display or the like.

The receiving device 50 has a receiver 51, a voltage output generating means 52, a display means 53, a data processing unit 54, a storage means 55, and a leaving time calculating means 61. The data processing unit 54 is a central processing unit or the like.
Examples include a liquid crystal display and a 7-segment display.

The receiver 51 receives a signal having a voltage output waveform from the transmitter 34. The voltage output generator 52 has the same configuration as the voltage output generator 32. Since the voltage output waveform signal received by the receiver 51 includes distortion during transmission, the voltage output waveform is not an accurate rectangular waveform. For this reason, the voltage output generation means 52 converts the voltage output waveform including the distortion into a rectangular voltage output waveform. The idle time calculating means 61 calculates the elapsed time from the rise of the converted voltage output waveform as the idle time. The display means 53 displays the idle time calculated by the idle time calculation means 61.

The data processing section 54 has a voltage rise / fall detection means 56 including a clock 57, a leaving time calculation means 58, and a skin roughness risk degree determination means 59. The storage means 55 has an excretion table 60.

The voltage rise / fall detecting means 56 detects the rising time of the rectangular voltage output waveform from the voltage output generating means 52 as the time of excretion at which excretion occurred, and detects the falling time of the voltage output waveform after the excretion. It is detected as the exchange time when the article (for example, a diaper) is exchanged. The clock 57
The time information of the excretion time and the replacement time detected by the voltage rise / fall detection means 56 is stored in the excretion table 60 of the storage means 55.

The leaving time calculating means 58 includes the excretion table 6
The excretion time and the exchange time are read out from 0, the difference time between the exchange time and the excretion time is calculated as the neglected time after excretion, and the time information of the calculated neglected time is associated with the excretion time and the exchange time. It is stored in the excretion table 60. The rough skin risk determining means 59 reads the idle time from the excretion table 60, determines whether the idle time is equal to or greater than a threshold, and if the idle time is equal to or greater than the threshold,
Information indicating the caution of rough skin is stored in the excretion table 60 in association with the leaving time. The threshold can be set arbitrarily.

Next, the operation of the thus configured excretion detecting device of the first embodiment will be described with reference to the timing chart shown in FIG. 2 and the flowchart of the data processing section shown in FIG.

First, the conduction sensor 1 is attached to a position corresponding to the excretion point inside the diaper. When there is excretion in the diaper, the conduction sensor 1 detects the excretion by the conductive pattern. As shown in FIG. 2, when there is no excretion, the conductive pattern does not conduct (output signal of the conduction sensor is at L level), and when there is excretion, the conductive pattern conducts (output signal of the conduction sensor). Is H level). Then, the detection output of the conduction sensor 1 is output to the transmission device 30.

Next, in the transmitting device 30, the conduction detecting means 3
When 1 detects the detection output of the conduction sensor 1, as shown in FIG. 2, the voltage output generation means 32 converts the detection output of the conduction detection means 31 into a rectangular voltage output waveform. Then, the voltage output waveform of the voltage output generation means 32 is displayed on the display means 33. At this time, the transmitter 34 outputs the voltage output
The signal of the voltage output waveform 2 is wirelessly transmitted to the receiving device 50.

On the other hand, in the receiving device 50, when the receiver 51 receives the signal of the voltage output waveform from the transmitter 34, the voltage output generating means 52 converts the voltage output waveform including the distortion received by the receiver 51 into a rectangular shape. To a voltage output waveform.

Next, the processing of the data processing section 54 is performed according to the processing of the flowchart shown in FIG. First, it is determined whether or not the data (data based on excretion detection) has been completed (step S11). If the data has not been completed, the voltage rise / fall detection means 56 outputs the voltage output generation means 5
It is determined whether the voltage has increased based on the rectangular voltage output waveform from Step 2 (Step S13).

As shown in FIG. 2, because the rectangular voltage output waveform rises at time t _1, the voltage rise and fall detecting means 5
6 detects the time _{t 1} as excretion time _{t 1,} and stores the excretion time _{t 1} excretion table 60 (step S
15).

Next, the voltage rise / fall detection means 56 determines whether the voltage has dropped based on the rectangular voltage output waveform from the voltage output generation means 52 (step S1).
7). As shown in FIG. 2, because the rectangular voltage output waveform falls at time t _2, the voltage rise and fall detecting means 56,
The time _{t 2} is detected as an exchange time _{t 2} of the diaper, and stores the replacement time _{t 2} excretion table 60 (step S19).

Next, standing time calculation means 58 reads out the excretion time _{t 1} and the exchange time _{t 2} from the excretion table 60, exchange time _{t 2} and excretion time _{t 1} the difference between the time _(t 2 -t
₁ ) is calculated as the idle time T left after excretion (step S21), and the time information of the calculated idle time T is stored in the excretion table 60 (step S23).

Further, returning to step S11, if there is the next data (data by the next excretion detection), step S11 is executed.
Steps 13 to S23 are repeated. When the data is finished, excretion time _{t 1, the} exchange time _{t 2, the} creating excretion table 60 including the standing time T in the storage unit 55 (step S25). For example, an excretion table 60 as shown in FIG. 4 is created.

Next, rough risk determining means 59 reads the elapsed time T from the excretion table 60, the standing time T is determined whether or above the threshold T _H (step S2
7), when the standing time T is equal to or greater than the threshold _{T H} is
Information indicating the caution of rough skin is stored in the excretion table 60 in association with the leaving time T (step S29). Further, it is checked from the excretion table 60 whether reading of all the idle times T has been completed (step S31). If reading of all the idle times T has not been completed, the process returns to step S27 and returns to step S27. The process of step S31 is repeatedly performed.

Finally, when the reading of all the idle times T is completed, an excretion table 60 as shown in FIG. 4 is created. The excretion table 60 includes the name of the care recipient, the date of excretion, the excretion time, the replacement time, the time from excretion to replacement (leaving time), information on rough skin care, one-day leaving time, one-day leaving time And information of caution for rough skin.

In FIG. 4, when the time from excretion to replacement is 1 hour or more (for example, 1:35, 1:05, etc.), a comment that the skin is rough is added. In addition, the standing time at each excretion in one day is summed to calculate the standing time in one day (for example, 3:15, 2:45).
Etc.), and the time left for one day is 5 hours or more (for example, 5: 2
In the case of 5), a comment that the skin is rough is added. Then, the information of the leaving time and attention of rough skin are read out from the excretion table 60 and displayed on the display means 53. The threshold value of the neglecting time can be arbitrarily set based on the skin condition, age, sex, activity level (ADL), etc. of the care recipient.

Therefore, the care giver can know the information about the neglecting time after excretion, which is closely related to the care recipient's skin roughness, and the information about the care of the rough skin indicating the degree of risk of rough skin of the care recipient, and the caregiver's attention is paid to the caregiver's attention. With the information, it is possible to take measures to prevent rough skin. For example, it is possible to urge the care recipient to take measures such as using cream and to reconsider the diaper changing time and the diaper changing order.

Also, by displaying the time of leaving the diaper, a guide for the time of changing the diaper is provided to the caregiver, and the check of excretion is simplified, and the diaper changing schedule is created by centrally managing the time of leaving the diaper. be able to.

In addition, the excretion time, the diaper changing time, and the leaving time after excretion can be automatically collected and stored through normal work, and as shown in FIG. 6, the daily excretion time and the exchanging time are totaled. Thus, the time distribution of each person's excretion time and exchange time can be understood, and, as shown in FIG. 7, the time distribution of each person's excretion time can be understood by summing up the weekly excretion time, and the optimal exchange The examination of the time becomes easy. In addition, since information such as the excretion time, the exchange time, the leaving time, and the attention of rough skin can be automatically collected during normal work, the work load on the caregiver is not imposed.

Further, as shown in FIG. 5, an excretion chart is prepared by combining information such as water intake and excretion during meals, in addition to information on leaving time (time difference) and attention to rough skin. With the information, it becomes possible to select a more appropriate care method, for example, selection of the absorption amount of the diaper and review of the replacement time.

(Second Embodiment) Next, an excretion detecting device according to a second embodiment will be described. The excretion detection device according to the second embodiment shown in FIG. 8 includes a conduction sensor 1 and an excretion detection device main body 30a.

The excretion detecting device main body 30a includes conduction detecting means 31, voltage output generating means 32, display means 33, data processing section 54, and storage means 55. The storage means 55 includes an excretion table 60, a leaving time calculating means 61
have.

In the excretion detection device according to the second embodiment, the transmitter 3 of the excretion detection device according to the first embodiment is used.
4. Receiver 51, voltage output generating means 52, display means 53
Has been deleted. Further, the same parts as those of the excretion detection device of the first embodiment are denoted by the same reference numerals, and detailed description thereof will be omitted.

According to the excretion detection device of the second embodiment configured as described above, the same effects as those of the excretion detection device of the first embodiment can be obtained, and the transmitter 3
4. Receiver 51, voltage output generating means 52, display means 53
Therefore, the configuration is simple, and the device can be reduced in size and weight.

(Third Embodiment) Next, an excretion detecting apparatus according to a third embodiment of the present invention will be described. The third shown in FIG.
The excretion detecting device according to the embodiment includes a conduction sensor 1, a transmitting device 30, and a receiving device 50a.

The receiving device 50a includes a receiver 51, a voltage output generator 52, a data processor 54a, and a display 53. The data processing unit 54a includes a voltage rise detecting unit 56a and a leaving time measuring unit 61.
Voltage rise detecting unit 56a detects the rise time of the voltage output waveform from the voltage output generator 52 as a evacuation time t ₁ of excretion. Standing time measuring means 61 starts counting from the excretion time t ₁ measures the standing time after excretion. The display means 53 displays the idle time measured by the idle time measuring means 61.

In the excretion detecting device according to the third embodiment, the same parts as those in the excretion detecting device according to the first embodiment are denoted by the same reference numerals, and detailed description thereof will be omitted.

According to the excretion detecting device of the third embodiment configured as described above, when the receiver 51 receives the signal of the voltage output waveform from the transmitter 34, the voltage output generating means 5
2 converts the voltage output waveform including the distortion received by the receiver 51 into a rectangular voltage output waveform.

Next, the voltage rise / fall detection means 56a determines whether or not the voltage has risen based on the rectangular voltage output waveform from the voltage output generation means 52, and determines the rise time of the voltage output waveform when excretion occurs. It was detected as excretion time _{t 1.} Then, the leaving time measuring means 61 outputs the excretion time t ₁
Then, the idle time after excretion is measured, and the idle time measured by the idle time measuring means 61 is displayed on the display means 53.

Therefore, the caregiver can know the information of the leaving time after excretion, which is closely related to the rough skin of the care recipient,
Based on the information on the leaving time, it is possible to take measures to prevent rough skin. For example, it is possible to urge the care recipient to take measures such as using cream and to reconsider the diaper changing time and the diaper changing order.

Also, by displaying the time of leaving the diaper, a guide for the time of changing the diaper is provided to the caregiver, and the check of excretion is simplified, and the diaper changing schedule is created by centrally managing the time of leaving the diaper. be able to.

As a modification of the excretion detecting device shown in FIG. 9, for example, the voltage output generating means 32, the display means 33, the transmitter 34, and the receiver 51 provided in the excretion detecting device shown in FIG. Alternatively, the conduction detecting means 31 may be configured to be directly connected to the voltage output generating means 52. In this way, as in the case of the excretion detecting device according to the second embodiment, the configuration is simple, and the device can be reduced in size and weight.

(Fourth Embodiment) Next, an excretion detecting device according to a fourth embodiment of the present invention will be described. The excretion detection device according to the fourth embodiment shown in FIG. 10 includes an impedance sensor 1a, a transmission device 30b, and a reception device 50b. Details of the impedance sensor 1a will be described later.

The transmitting device 30b includes a frequency detecting means 31
a, voltage output generating means 32a, display means 33, transmitter 3
4. The frequency detecting means 31a detects frequency data from the frequency conversion circuit 10. The voltage output generation means 32a corresponds to the voltage conversion means of the present invention,
The frequency data detected by the frequency detecting means 31a is converted into a voltage corresponding to the frequency data. The idle time calculating means 41 calculates the elapsed time from the rise of the converted voltage output waveform as the idle time. The display means 33 displays the idle time calculated by the idle time calculation means 41.
The transmitter 34 transmits the voltage signal converted by the voltage output generating means 32a to the receiving device 50b.

The receiving device 50b has a receiver 51, a voltage output generating means 52, a display means 53, a data processing unit 54b, and a storage means 55. The data processing unit 54b includes a voltage rise / fall detection unit 56 including a clock 57, a leaving time calculation unit 58, a skin roughness risk determination unit 59, and a skin diaper contact determination unit 62. The skin diaper contact determination means 62
Based on the magnitude of the voltage from the voltage output generating means 52, it is determined whether or not the diaper is in contact with the skin after excretion. The rough skin risk determining means 59 includes a skin diaper contact determining means 62.
Is determined based on the result of the determination.

In the excretion detecting device according to the fourth embodiment, the same parts as those in the excretion detecting device according to the first embodiment are denoted by the same reference numerals, and detailed description thereof will be omitted.

The impedance sensor 1a includes a sensor unit 2 formed so as to detect a change in impedance between a pair of electrodes arranged at a slight distance from each other, and a frequency conversion circuit 10 whose frequency changes in accordance with a change in impedance between the pair of electrodes. It is configured to have.

FIG. 11A is a top view of the impedance sensor, and FIG. 11B is a cross-sectional view of the impedance sensor taken along line AA. Impedance sensor 1 shown in FIG.
a is a diaper that absorbs excrement such as urine or stool, and is attached to the excretion point on the outer surface of an absorbent article such as a urine absorbing pad, and has a sensor unit 2, a frequency conversion circuit 10,
Detect the presence or absence of excretion in the absorbent article. The urine absorbing pad is inserted into the inside of the outer diaper (excretion site), and used as a two-ply.

In the sensor section 2 shown in FIG. 11, a pair of electrodes 3 and 4 are formed on one surface (front surface) of a rigid (unbent) substrate 7 with an electrode interval 5 therebetween. Each electrode of the pair of electrodes 3 and 4 is formed in a comb shape, and one of the electrodes 3
Are connected to the electrode pattern 6a. The other electrode 4 arranged inside is connected to the electrode pattern 6b. The electrode patterns 6a and 6b are connected to the frequency conversion circuit 10 shown in FIG. 12, the electrode pattern 6a is grounded, and a positive potential is applied to the electrode pattern 6b. A resist layer 8 for electrically insulating between the electrodes and protecting the electrodes is formed on the pair of electrodes 3 and 4, and can be attached to the outer surface of an absorbent article such as a diaper on the resist layer 8. An adhesive 9 such as a bonding band or the like, which is a suitable mounting member, is formed.

On the other hand, on the other surface (back surface) of the substrate 7, a frequency conversion circuit 10 is arranged. Frequency conversion circuit 10
Is a device in which the frequency changes according to a change in the impedance between the pair of electrodes 3 and 4.
An inverter 11, a resistor R1 connected to the input terminal of the inverter 11 and the impedance sensor 1a,
It has connected feedback resistor R _R to first output terminal and the impedance sensor 1a, the output terminal of the inverter 11, and a RC oscillation circuit for outputting a frequency corresponding to the impedance.

Next, the operation of the excretion detecting apparatus according to the fourth embodiment will be described with reference to the timing charts shown in FIGS. First, when there is urination or excretion in the diaper, the impedance between the pair of electrodes 3 and 4 of the sensor unit 2 changes as shown in FIG. 13, and the frequency conversion circuit 10 detects the impedance detected by the sensor unit 2. And outputs the frequency f to the transmitting device 30b. For example, when there is excretion, when the skin touches the diaper, the frequency change is large as shown in FIG. 14A, and when the skin does not touch the diaper, as shown in FIG.
As shown in (b), the amount of change in frequency is small.

Next, in the transmitting device 30b, the frequency detecting means 31a detects the frequency data from the frequency conversion circuit 10, and the voltage output generating means 32a detects the frequency data.
Converts the detected frequency data into a voltage corresponding to the frequency data. For example, the frequency data shown in FIG. 14A is converted into a voltage corresponding to the size of the frequency data as shown in FIG. Then, the transmitter 34 transmits the voltage signal converted by the voltage output generating means 32a to the receiving device 50b.

On the other hand, in the receiving device 50b, the voltage output generating means 52 converts the voltage signal received by the receiver 51 into, for example, a rectangular voltage output waveform as shown in FIG. Skin diaper contact determination unit 62 determines that when the voltage from the voltage output generating means 52 is greater than or equal to the threshold value E _H is in contact with the skin in the diaper, the voltage is less than the threshold value E _H In this case, it is determined that the skin is not in contact with the diaper. The rough skin risk determining means 59 determines the rough skin risk based on the determination result of the skin diaper contact determining means 62.

As described above, according to the excretion detecting device of the fourth embodiment, the effects of the excretion detecting device of the first embodiment can be obtained, and the impedance sensor 1a
And the skin diaper contact determination means 62 can determine whether the skin is touching the diaper. When the skin is in contact with the diaper, the moisture such as urine becomes wet to the buttocks and the like, and the skin becomes rough. Therefore, information that the skin is touching the diaper is also one piece of information for determining the degree of risk of skin roughness. The rough skin risk determining means 59 determines the rough skin risk including the one piece of information, so that the rough skin risk can be accurately grasped.

The sensor unit 2 detects a change in impedance between a pair of electrodes formed side by side at a slight distance, and the frequency conversion circuit 10 detects the capacitance and resistance between the pair of electrodes detected by the sensor unit 2. Since the frequency is changed according to the impedance change such as the above, it is possible to detect the presence or absence of excretion in the diaper based on the change in the frequency. Thereby, the detection accuracy of the presence or absence of excretion can be improved.

The present invention is not limited to the excretion detecting devices of the first to fourth embodiments described above.
In the first to fourth embodiments, the information on the caution of rough skin is displayed on the display unit 53 or the like. However, the information on the caution of rough skin may be output to an alarm buzzer, a speaker, or the like to warn. Needless to say, the present invention can be used not only for nursing care but also for infants.

[0061]

According to the present invention, it is possible to obtain a standing time after excretion closely related to rough skin, determine the degree of risk of rough skin based on the leaving time, and take measures to prevent rough skin based on the determination result. An excretion detection device can be provided.

[Brief description of the drawings]

FIG. 1 is a configuration diagram showing an excretion detection device according to a first embodiment of the present invention.

FIG. 2 is a timing chart of output signals of a conduction sensor and a voltage output generator provided in the excretion detecting device.

FIG. 3 is a flowchart showing a process of a data processing unit provided in the excretion detecting device.

FIG. 4 is a detailed diagram of an excretion table including information such as the excretion time, replacement time, and idle time of a care recipient for one week.

FIG. 5 is an excretion chart including the daily excretion time and the diaper replacement time of the care recipient.

FIG. 6 is a diagram showing the excretion time, replacement time, and urination volume of a care recipient in one day.

FIG. 7 is a diagram showing the excretion time, replacement time, and urination volume of a care recipient in one week.

FIG. 8 is a configuration diagram showing an excretion detection device according to a second embodiment of the present invention.

FIG. 9 is a configuration diagram illustrating an excretion detection device according to a third embodiment of the present invention.

FIG. 10 is a configuration diagram showing an excretion detection device according to a fourth embodiment of the present invention.

FIG. 11 is a configuration diagram of an impedance sensor provided in the excretion detection device according to the fourth embodiment.

FIG. 12 is a diagram illustrating a frequency conversion circuit provided in the impedance sensor.

FIG. 13 is a timing chart of output signals of an impedance sensor and a voltage output generator provided in the excretion detecting device according to the fourth embodiment.

FIG. 14 is a timing chart showing a frequency change and a voltage change of a voltage output generating means provided in the excretion detecting device according to the fourth embodiment.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 1 ... Continuity sensor, 1a ... Impedance sensor, 2 ... Sensor part, 3,4 ... Pair of electrodes, 5 ... Electrode spacing, 6a, 6
b: electrode pattern, 7: substrate, 8: resist, 9: adhesive, 10: frequency conversion circuit, 11: inverter, 30,
30b ... transmitting device, 30a ... excretion detecting device main body, 31 ...
Conduction detecting means, 31a ... frequency detecting means, 32, 32
a, 52: voltage output generating means, 33, 53: display means,
34 ... transmitter, 50 ... receiver, 51 ... receiver, 54 ...
Data processing unit, 55: storage means, 56: voltage rise / fall detection means, 57: clock, 58: idle time calculation means, 59 ...
Skin roughness risk determining means, 60: excretion table, 62: skin diaper contact determining means.

 ──────────────────────────────────────────────────続 き Continued on front page (72) Inventor Katsutoshi Hara 2606 Kabane-cho, Akaga-cho, Haga-gun, Tochigi Prefecture Kao Co., Ltd. In-house (72) Noriyuki Kitaori 2606 Akabane, Kaga-cho, Haga-gun, Tochigi Pref. Kao Co., Ltd.F-term (reference)

Claims (6)

[Claims] 1. An excretion detecting device for detecting the presence or absence of excretion in an absorbent article that absorbs excrement, comprising: an excretion detecting means for detecting the presence or absence of excretion in the absorbent article; Time detecting means for detecting the excretion time at which excretion was performed based on the detection output and the exchange time at which the absorbent article was replaced after excretion; and exchanging the absorbent article from excretion based on the excretion time and the exchange time. An excretion detecting device, comprising: a leaving time calculating means for calculating a leaving time until the time; and a rough skin risk determining means for determining a risk of rough skin due to the excretion based on the leaving time. 2. An excretion detection device for detecting the presence or absence of excretion in an absorbent article that absorbs excrement, comprising: an excretion detection means for detecting the presence or absence of excretion in the absorbent article; A transmitter for transmitting a detection output, a receiver for receiving the detection output from the transmitter, a time for excretion at which excretion was performed based on the detection output received by the receiver, and the absorbent article after excretion. Time detecting means for detecting the replaced replacement time, leaving time calculating means for calculating a leaving time from excretion to replacement of the absorbent article based on the excretion time and the replacement time, based on the leaving time An excretion detection device, comprising: a skin roughness risk determining means for determining a skin roughness risk due to excretion. 3. An excretion detection device for detecting the presence or absence of excretion in an absorbent article that absorbs excrement, comprising: an excretion detection means for detecting the presence or absence of excretion in the absorbent article; Time detecting means for detecting the excretion time at which excretion was performed based on the detection output; leaving time measuring means for starting time counting from the excretion time and measuring the leaving time after excretion; and display means for displaying the leaving time. An excretion detection device comprising: 4. A voltage output generating means for converting the detection output into a rectangular wave voltage output waveform, wherein the time detecting means detects a rising time of the voltage output waveform of the voltage output generating means as the excretion time. 3. The excretion detection device according to claim 1, wherein a falling time of the voltage output waveform is detected as the replacement time. 5. The excretion detecting means is attached to an outer surface of the absorbent article, and detects a change in impedance between a pair of electrodes formed side by side with a slight distance, and the excretion detecting means is detected by the sensor means. The excretion detection device according to any one of claims 1 to 4, further comprising: frequency conversion means for changing a frequency according to a change in impedance between the pair of electrodes. 6. A voltage conversion means for converting a frequency converted by the frequency conversion means into a voltage, and the skin comes into contact with the absorbent article based on the magnitude of the voltage converted by the voltage conversion means. 6. Excretion according to claim 5, further comprising: contact determination means for determining whether or not the skin is rough, wherein the skin roughness risk determination means determines the skin roughness risk based on the determination result of the contact determination means. Detection device.