JP3199505U - Excretion detection sensor - Google Patents

Abstract

An object of the present invention is to provide a detection sensor for excretion that allows a caregiver to know urination of a cared person when the cared person urinates and the like so that the cared person does not feel uncomfortable or uncomfortable.
An excretion detection sensor (2) includes an electrode unit (10) and a detection unit (20) connected to the electrode unit (10) and having a light source (24). The electrode portion 10 includes a plurality of first straight portions and a plurality of first bent portions connected to the first straight portions, a plurality of second straight portions, and a plurality of second bent portions connected to the second straight portions. The first electrode and the second electrode are arranged in a staggered manner with an interval of 0.8 mm to 1.0 mm, and the first electrode and the second electrode are separated by moisture of excrement. The detection unit 20 detects that the electrode is conductive.
[Selection] Figure 2

Description

  The present invention relates to a detection sensor for excretion that can inform the surroundings of a diaper when the diaper is moistened by urination or defecation, for example.

  If it is difficult for a person who needs care (hereinafter referred to as a care recipient), such as an infant, elderly person, or highly disabled person, to process urination / defecation (hereinafter referred to as urination) by himself / herself, Use paper diapers. Paper diapers hold excrement inside. If a long time elapses between the caregiver's urination and the replacement of the paper diaper, the caregiver becomes uncomfortable and comfortable. You won't be able to spend time. In addition, if excrement due to urination or the like is held inside for a long time, it becomes unsanitary for the care recipient. Furthermore, when the odor of excrement leaks to the surroundings, the surrounding environment also deteriorates. For this reason, it is desirable for a person who cares for a care recipient (hereinafter referred to as a caregiver) to change the disposable diaper as soon as possible after the care recipient urinates.

However, the caregiver cannot be aware of this unless the caregiver has informed the caregiver that he / she has urinated. In addition, the care recipient himself / herself may not be aware that he / she has urinated, making it more difficult for the caregiver to notice that the care recipient has urinated or the like.
In order to solve such a problem, a detection sensor for excretion provided at a position where urination of a paper diaper is performed is known. For example, there is an excretion detection sensor in which a pair of rod-shaped electrodes (hereinafter referred to as rod electrodes) is connected to a circuit having a light source. In this excretion detection sensor, when the caregiver urinates or the like, the circuit is energized by the presence of the excrement water between the rod electrodes, and the light source is turned on. Then, the caregiver can know that the cared person urinated or the like by looking at the lit light source.
As the electrode of the detection sensor for excretion has more parts to be detected, it can be detected that moisture of excrement is interposed between the electrodes. Therefore, the longer the electrode, the higher the accuracy of the excretion detection sensor.

The detection sensor for excretion is uncomfortable when the caregiver wearing a diaper with an excretion detection sensor lies down or sits down if the unevenness of the electrodes is large or the detection sensor for excretion is large. This causes an unpleasant sensation, and the cared person cannot live comfortably.
However, if the length of the electrode is shortened in order to reduce the unevenness of the electrode or reduce the size of the excretion detection sensor, the accuracy of the excretion detection sensor decreases.

  The present invention provides an excretion detection sensor that allows a caregiver to know that a cared person has urinated when used in a disposable diaper, etc., and that the cared person does not feel uncomfortable or uncomfortable. The purpose is to do.

  In view of the above problems, an excretion detection sensor according to the present invention is an excretion detection sensor comprising an electrode and a detection unit connected to the electrode and having a notification means unit. A planar electrode having a first electrode composed of a plurality of first bent portions connected to the first straight portion, a plurality of second straight portions connected to the first straight portion, and a second electrode consisting of a plurality of second bent portions connected to the second straight portion. The first electrode and the second electrode are alternately formed with an interval of 0.8 mm to 1.0 mm, and the detection unit detects that the first electrode and the second electrode are conducted by the water of excrement. It is characterized by detecting.

  Further, in the excretion detection sensor of the present invention, the first electrode and the second electrode are held by the substrate, the first electrode is detected by the first wiring through the first contact, and the second electrode is the second contact And the first contact and the second contact are arranged adjacent to each other, and the first electrode and the second electrode are connected to the hook-shaped electrode near the center of the substrate. It is preferable to branch into the L-shaped electrode.

  Furthermore, in the excretion detection sensor of the present invention, it is preferable that the notification means is an LED bulb illumination or an alarm function.

In the excretion detection sensor of the present invention, the first electrode and the second electrode are alternately arranged at a predetermined interval. By arranging the first electrode and the second electrode in a staggered manner, the area in which the electrode is arranged can be made smaller than when a linear electrode is used, so that the size of the electrode can be reduced. Since the first electrode and the second electrode are formed as planar electrodes, the electrodes do not have an uneven surface. Therefore, the cared person who wears the paper diaper to which the detection sensor for excretion is attached can live comfortably without causing a sense of incongruity.
Moreover, since the length of the electrode can be ensured while reducing the size of the electrode, the accuracy of detecting the moisture of excrement does not decrease.

Furthermore, since the interval between the first electrode and the second electrode of the excretion detection sensor of the present invention is set to 0.8 to 1.0 mm, it is possible to prevent a short circuit between the first electrode and the second electrode. It is possible to accurately detect urination of the care recipient. In addition, if the space | interval between both electrodes is smaller than 0.8 mm, it will become easy to produce a short circuit, and if larger than 1.0 mm, the precision which detects the water | moisture content of excrement will fall.

  The excretion detection sensor of the present invention can employ LED bulb illumination or an alarm function as means for notifying a caregiver. By using the LED bulb, the caregiver can visually know that the care recipient has urinated. On the other hand, when the alarm function is used, the caregiver can audibly know that the cared person has urinated.

It is an external view of the disposable diaper which attached the detection sensor for excretion concerning the embodiment of the present invention. It is a schematic circuit diagram which shows the electrode and detection part of the detection sensor for excretion which concern on embodiment of this invention. It is a figure which shows the electrode and detection part of the detection sensor for excretion which concern on embodiment of this invention. (A) shows the electrode coat | covered with the mold resin material, (b) is the figure of the electrode seen from the direction of arrow A of (a).

An excretion detection sensor 2 according to an embodiment of the present invention will be described with reference to FIGS.
The excretion detection sensor 2 can be used for a disposable diaper 1 as shown in FIG. The detection sensor 2 for excretion is for detecting the moisture of excrement excreted from the care recipient and notifying the caregiver.
The excretion detection sensor 2 includes an electrode unit 10 and a detection unit 20 connected to the electrode unit 10 by wirings 26 and 27. The electrode portion 10 is provided in the disposable diaper 1 and in the vicinity of a position where the care receiver is urinating. The electrode part 10 is fixed with a tape with its surface facing the paper diaper 1 side. In addition, the electrode part 10 is waterproofed.

As shown in FIG. 2B, the electrode unit 10 includes a substrate 11 and a planar electrode 14 formed on the substrate 11 and having a first electrode 12 and a second electrode 13.
A part of the outer peripheral surface of the electrode part 10 and a part of the wirings 26 and 27 are covered with a mold resin material 19 as shown in FIG. By being covered with the mold resin material 19, waterproofness is improved.
The substrate 11 is made of a plate-like glass epoxy resin and has a circular shape. On the substrate 11, the first electrode 12 and the second electrode 13 are respectively exposed and formed.

The first electrode 12 and the second electrode 13 are formed by applying a copper foil having a thickness of 0.35 mm on the substrate 11 and performing electroless gold flash plating. The widths of the first electrode 12 and the second electrode 13 are set to 0.8 mm to 1.0 mm, respectively.
The first electrode 12 and the second electrode 13 are each branched near the center of the substrate 11 (FIG. 2B). In both the first electrode 12 and the second electrode 13, one of the branched electrodes is formed in a hook shape, and the other is formed in an L shape.
The branched hook-shaped first electrode 12 has two first straight portions 12A and a first bent portion 12B that connects the two first straight portions 12A. On the other hand, the branched L-shaped first electrode 12 has a first straight portion 12A and a first bent portion 12B connected to the first straight portion 12A.
Similarly, the branched hook-shaped second electrode 13 has two second straight portions 13A and a second bent portion 13B that connects the two second straight portions 13A. On the other hand, the L-shaped second electrode 13 has a second straight portion 13A and a second bent portion 13B connected to the second straight portion 13A.

The first straight portion 12A is the other first straight portion 12A and the second straight portion 13A and the other second bent portion 13B, and the first bent portion 12B is the other first bent portion 12B and the second bent portion 13B, respectively. They are arranged in parallel.
12 A of 1st linear parts are arrange | positioned at intervals d with the adjacent 2nd linear part 13A and 2nd bending part 13B. Similarly, the 1st bending part 12B is arrange | positioned at intervals d with the 2nd linear part 13A and the 2nd bending part 13B. Therefore, the first electrode 12 and the second electrode 13 are alternately arranged in a comb shape.
In order to prevent the first electrode 12 and the second electrode 13 from being short-circuited and to prevent the accuracy of the sensor from being lowered, the distance d is set to 0.8 mm to 1.0 mm.

One end of the first electrode 12 is connected to the wiring 26 via the contact 15, and the wiring 26 is connected to the detection unit 20. Similarly, the second electrode 13 is connected to the wiring 27 through the contact 16, and the wiring 27 is connected to the detection unit 20. Therefore, the planar electrode 14 is electrically connected to the circuit 21.
The contacts 15 and 16 are formed so as to be adjacent to the outer peripheral side of the substrate 11. The contacts 15 and 16 are formed on the outer peripheral side closer to the position where the first electrode 12 branches than the position where the second electrode 13 branches. Therefore, the second electrode 13 is formed longer than the first electrode 12.

  As shown in FIG. 3, the detection unit 20 includes a circuit 21 connected to the planar electrode 14, a power source 22, a switch 23, a light source 24, and a capacitor 25 provided on the circuit 21. The electronic components are connected in series.

The power source 22 supplies a current to the circuit 21, and in this embodiment, the power source 22 includes two dry batteries (1.5V) connected in series.
The switch 23 is operated to supply a current to the circuit 21 (ON state) or not to supply a current (OFF state). The switch 23 is operated so that the circuit 21 is turned on when the cared person is using the disposable diaper 1 and is turned off when the disposable diaper 1 is not being used.
The light source 24 is turned on when the circuit 21 is energized. In the present embodiment, an LED bulb is used as the light source 24.
The capacitor 25 is disposed between the power source 22 and the light source 24.

Next, the operation and effect of the excretion detection sensor 2 according to the present embodiment will be described.
The detection sensor 2 for excretion according to the present embodiment can detect by the detection unit 20 that the first electrode 12 and the second electrode 13 are conducted by the water of excretion excreted by the care recipient.
After the cared person wears the disposable diaper 1 to which the excretion detection sensor 2 is attached, the switch 23 of the detection unit 20 is operated to turn on the circuit 21. When the cared person urinates, the discharged water soaks into the paper diaper 1, and the soaked water is interposed between the first electrode 12 and the second electrode 13. Then, the first electrode 12 and the second electrode 13 are electrically connected and the circuit 21 is energized, so that the light source 24 is turned on.

  When the light source 24 is turned on, the caregiver can know that the cared person has urinated by looking at it. Since the caregiver who confirmed the lighting of the light source 24 can change the caregiver's disposable diaper 1 at an appropriate timing, the caregiver can spend comfortably without causing discomfort, and the cared person Can keep the skin hygiene. Furthermore, since the caregiver can change the disposable diaper 1 at an appropriate timing, it is possible to prevent the malodor of excrement from leaking to the surroundings and to prevent the surrounding environment from deteriorating.

Since the first electrode 12 and the second electrode 13 in this embodiment are planar electrodes, no step is generated between the two electrodes and the substrate 11, and no irregularities are formed on the surface of the electrode portion 10. When a bar electrode is used for the pair of electrodes in the excretion detection sensor, a step is formed between the bar electrode and the substrate supporting the electrode surface, and irregularities are formed on the electrode surface.
Therefore, compared with the case where a bar electrode is used, the caregiver who wears the paper diaper 1 to which the excretion detection sensor 2 is attached does not feel uncomfortable or uncomfortable when lying down or sitting down.

  In the excretion detection sensor 2 according to the present embodiment, the first electrode 12 and the second electrode 13 are alternately arranged in parallel in a comb shape. When a pair of electrodes are provided in a straight line, a space corresponding to the length of the electrode is required, but the first electrode 12 and the second electrode 13 are arranged in a comb-like manner and alternately in parallel. Thus, each electrode can be arranged in a narrow region while ensuring the length of the electrode. As a result, since the size of the electrode part 10 can be reduced, the cared person who wears the paper diaper 1 to which the excretion detection sensor 2 is attached does not cause discomfort and discomfort.

  In addition, since a predetermined length can be ensured without shortening the length of the electrode when the area in which the electrode is arranged is narrowed, the excretion detection sensor compared to a straight bar electrode of the same length 2 accuracy can be maintained.

Moreover, the space | interval d of the 1st electrode 12 and the 2nd electrode 13 of the detection sensor 2 for excretion which concerns on this embodiment is set to 0.8 mm-1.0 mm. When the distance d is smaller than 0.8 mm, the possibility that the first electrode 12 and the second electrode 13 are short-circuited increases. Therefore, by making the interval d larger than 0.8 mm, it is possible to prevent a short circuit and prevent the excretion detection sensor 2 from malfunctioning.
On the other hand, if the distance between the first electrode 12 and the second electrode 13 is large, a large amount of moisture is required to energize the circuit 21. Therefore, if the interval d is too wide, the circuit 21 may not be energized even though the care recipient is urinating, and the accuracy of the excretion detection sensor 2 is reduced. Therefore, the accuracy of the excretion detection sensor 2 can be improved by setting the interval d to be smaller than 1.0 mm.

  In the present embodiment, a dry battery (1.5 V × 2) is used as the power source 22, but the current / voltage is absorbed by the excretion detection sensor 2, so there is no risk of electric shock to the human body and the skin is exposed to weak skin. It can also be used by caregivers. Moreover, since the electrode part 10 in this embodiment is waterproofed, it can be washed and reused after use.

  When the detection sensor 2 for excretion is used for a diaper of a care recipient in a hospital or a care facility, a transmitter can be provided in the detection sensor 2 for excretion. A transmitter that detects that the circuit 21 has been energized can wirelessly transmit to the receiver and inform the monitor screen of urination of the care recipient. Therefore, even when the caregiver is not around the cared person, it is possible to know the situation such as urination of the cared person. If necessary, the time interval from the replacement of the disposable diaper 1 until the care receiver urinates can be recorded electromagnetically, and the urination status of the care receiver can be monitored at predetermined time intervals. Can be confirmed. Furthermore, the information energized by the circuit 21 can be transferred to the small terminal. In this case, urination of the care recipient can be confirmed even while the caregiver patrolls in the hospital or care facility.

Although the embodiments of the present invention have been described above, the configuration described in the above embodiments can be selected or changed to other configurations as appropriate without departing from the spirit of the present invention. It is. For example, if the distance d between the first electrode 12 and the second electrode 13 is 0.8 mm to 1.0 mm, even if it is a linear electrode, a short circuit between the electrodes can be prevented and excretion can be achieved. The accuracy of the detection sensor can be maintained. In this case, the width of the electrode itself is preferably 1.0 mm to 1.5 mm.
Moreover, the light source 24 does not light up, and the caregiver only needs to be able to know that the circuit 21 is energized. For example, if an alarm is used, an alarm can be generated to audibly know that the cared person has urinated by the cared person. Moreover, the electrode part 10 can also be made into a plug type, and replacement | exchange of the electrode part 10 can be performed easily.

DESCRIPTION OF SYMBOLS 1 Paper diaper 2 Excretion detection sensor 10 Electrode part 11 Board | substrate 12 1st electrode 12A 1st linear part 12B 1st bending part 13 2nd electrode 13A 2nd linear part 13B 2nd bending part 14 Planar electrode 15 Contact 16 Contact 19 Mold resin material 20 detector 21 circuit 22 power supply 23 switch 24 light source 25 capacitor 26 wiring 27 wiring

Claims (3)

In an excretion detection sensor comprising an electrode and a detection unit connected to the electrode and having a notification means unit,
The electrode includes a plurality of first straight portions and a plurality of first bent portions connected to the first straight portions, a plurality of second straight portions, and a plurality of second bent portions connected to the second straight portions. A planar electrode having a second electrode comprising:
The first electrode and the second electrode are alternately arranged with an interval of 0.8 mm to 1.0 mm,
The detection unit detects that the first electrode and the second electrode are conducted due to the water of excrement,
An excretion detection sensor characterized by the above. The first electrode and the second electrode are held by a substrate,
The first electrode is connected to the detection unit by a first wiring through a first contact, and the second electrode is connected to the detection unit by a second wiring through a second contact, respectively.
The first contact and the second contact are arranged next to each other,
The first electrode and the second electrode are branched into a hook-shaped electrode and an L-shaped electrode, respectively, near the center of the substrate.
The excretion detection sensor according to claim 1 characterized by things. The notification means is an LED bulb illumination or an alarm function.
The detection sensor for excretion according to claim 1 or 2, characterized by things.