The present invention relates to a diaper, and more particularly to a smart nursing consumable, a rollable sensor module of the smart nursing consumable, and a manufacturing method of the smart nursing consumable.
Conventionally, nursing consumables, such as gauze/swab, urinary pad, diaper, replacement sheets, etc., has no sensing functions, and therefore cannot notify the active condition of the nursing consumables or notify the care receiver as well as the caregivers to change the nursing consumables when become dirty. In addition, the conventional nursing consumables do not have physiological sensing functions, either. In generally, some care receiver such as infants, elderly with dementia or patients with limited mobility, etc. may not be able to self-control their excretions. Therefore, it is common among care receivers to wear diapers to lessen the burden of the caregivers.
However, moisture in diaper, PH of urine, and proteins or bacteria in feces tend to cause skin-related infections among diapered care receivers. Therefore, it is quite important for the caregivers to determine whether diapers are dirty and when to change dirty diapers. Conventionally, the determination of timing to change diapers is realized based on the caregivers actively and physically touching the diaper, thereby sensing whether the humidity inside the diaper is too high. Alternatively, caregivers would passively wait until the care receiver express discomfort. However, the aforementioned judgments depend primarily on personal experiences or feelings of the caregivers, and the caregivers may judge incorrectly when the care receivers give uncertain expressions.
As a result, smart diapers capable of sensing the presence of excretions has been developed. Generally, a conventional smart diaper has a conductive tape formed by conductive printing on a waterproof layer (for example, PE materials for better skin sensation) of the smart diaper. The conductive tape is covered with a water-absorbing layer, and a transceiver assembly is used to sense the impedance changes of the conductive tape. When the water-absorbing layer absorbs certain amount of urine, some of the urine may permeate to the conductive tape and the impedance between the conductive tapes would change consequently. Therefore, once the transceiver assembly senses that the impedance between the conductive tapes has changed, it would notify that the water-absorbing layer has absorbed certain amount of urine and it is time to change a new smart diaper.
Conventionally, the waterproof layer is made smooth so that the conductive resins can be printed thereon and the connection between the tapes on the waterproof layer and the transceiver assembly can be realized more easily. However, because feces could not permeate to the conductive tape through the water-absorbing layer, the impedance between the conductive tapes would not change when the care receiver has excreted. Therefore, the determination diaper change for the care receiver still relies on the caregiver's attention. Moreover, convention smart diapers can only notify the caregivers when to change but not sense or analyze each urination of the care receivers. Additionally, some conventional smart diapers have a water-absorbing layer on a waterproof layer (made by PE materials for example) and a permeable layer on the water-absorbing layer; therefore, openings on the water-absorbing layer and the permeable layer are required to expose the connecting terminals of the tapes or wires on the waterproof layer, so that the connecting terminals can be electrically connected to the transceiver assembly. The openings are covered by a release paper when the smart diapers are manufactured. When the smart diapers are used, users must first remove the release paper to expose the openings and then electrically connect the transceiver assembly to the connecting terminals of the tapes or wires.
However, having the openings and the release paper in the conventional smart diapers, the cost of production is increased. In addition, the conventional smart diapers may inconvenience for that the users must remove the release paper before using the smart diapers. Further, the release paper may be accidentally detached from unused smart diapers. Furthermore, because the conventional smart diapers have the water-absorbing layer and the permeable layer formed on the waterproof layer, the wires tend to exhibit poor sensibility; namely, the wires can only sense urine but not feces.
One objective of the present invention is to provide a smart nursing consumable with improved sensibility.
Another objective of the present invention is to provide a rollable sensor module of the aforementioned smart nursing consumable.
Still another objective of the present invention is to provide a manufacturing method of the smart nursing consumable, thereby improving the production efficiency of the smart nursing consumable.
The present invention provides a smart nursing consumable, which includes an absorbent body and a sensor module disposed on the absorbent body. The sensor module includes a first film sheet, at least one wire, a second film sheet and a conductive pad. The first film sheet is disposed on the absorbent body. The at least one wire is disposed on the first film sheet. The second film sheet is disposed on the first film sheet and covers the at least one wire. The conductive pad is connected to the at least one wire. Both of the first film sheet and the second film sheet include a plurality of pores.
In one embodiment, the conductive pad is disposed on the second film sheet and connected to the at least one wire through a portion of the plurality of pores of the second film sheet.
In one embodiment, the conductive pad is disposed between the first film sheet and the second film sheet.
In one embodiment, the first film sheet and the second film sheet are non-woven fabric or adhesive-bonded fabric.
In one embodiment, a material of the conductive pad is selected from at least one element in a group consisting of conductive plastic gum, conductive gel, conductive plastic, conductive ink, conductive paint and carbon film.
In one embodiment, a quantity of the at least one wire may be two or more than two.
In one embodiment, the smart nursing consumable comprises smart nursing pants, a smart diaper, a smart nursing pad, a smart sanitary napkin or smart gauze.
The present invention also provides a rollable sensor module of a smart nursing consumable. The rollable sensor module includes a first film sheet, at least one wire and a second film sheet. The at least one wire is disposed on the first film sheet. The second film sheet is disposed on the first film sheet and covers the at least one wire. Both of the first film sheet and the second film sheet includes a plurality of pores.
In one embodiment, the aforementioned rollable sensor module further includes a conductive pad. The conductive pad is disposed between the first film sheet and the second film sheet and is connected to the at least one wire.
In one embodiment, the aforementioned rollable sensor module further includes a conductive pad. The conductive pad is disposed between the first film sheet and the second film sheet and connected to the at least one wire through a portion of the plurality of pores of the second film sheet.
The present invention further provides a manufacturing method of a smart nursing consumable. The method includes: providing an absorbent body; and disposing a portion of the aforementioned rollable sensor module on the absorbent body.
In summary, because the sensor module is disposed above the absorbent body, the smart nursing consumable of the present invention has improved sensibility without affecting urine permeability and skin sensation. In addition, because the wires are covered by the second film sheet, comfort of the user and connectivity of the wires would not be affected, as compared with conventional diapers. Further, as compared with smart nursing consumables of the prior art, the smart nursing consumable of the present invention does not require the use of release papers; and consequently, not only the cost for the release paper is saved, but also the issue of accidental detachment of the release paper is avoided. Furthermore, the smart nursing consumable of the present invention has improved usability as removal of the release paper before using the smart nursing consumable is no longer required. Furthermore, because the smart nursing consumable of the present invention is manufactured by cutting off and disposing the rollable sensor module on the absorbent body, the manufacturing method of the smart nursing consumable of the present invention has improved production efficiency.
The present disclosure will become more readily apparent to those ordinarily skilled in the art after reviewing the following detailed description and accompanying drawings, in which:
The present disclosure will now be described more specifically with reference to the following embodiments. It is to be noted that the following descriptions of preferred embodiments of this disclosure are presented herein for purpose of illustration and description only. It is not intended to be exhaustive or to be limited to the precise form disclosed.
The present invention provides a smart nursing consumable for a care receiver and for detecting and collecting excretions of the care receiver. The smart nursing consumable of the present invention may be implemented as smart nursing pants (such as smart diapers), smart nursing pads, smart sanitary napkins for menstruation or smart gauze for covering wounds; and the present invention is not limited thereto. In addition, the smart nursing consumable of the present invention may be further implemented as mats or packaging materials for collecting excretions of the care receiver. The smart nursing consumable of the present invention will be exemplarily implemented as smart nursing pants, and the structures and functions thereof will be described in detail as follow.
In the present embodiment, the wires 122 and the conductive pad 124 as illustrated by dotted lines in
In the present embodiment, the smart nursing consumable 100 can be coupled to the transceiver assembly 130. Specifically, the transceiver assembly 130 is coupled to the sensor module 120. More specifically, the transceiver assembly 130 includes a connecting member 131 for connecting to the conductive pad 124 of the sensor module 120. When the transceiver assembly 130 is coupled to the sensor module 120, the connecting member 131 passes through the second film sheet 123 to connect to the conductive pad 124, thereby electrically connecting to the wires 122. The transceiver assembly 130 may further include a clamp body 132, in which the connecting member 131 is disposed. The clamp body 134 may be a flexible circuit board or a rigid circuit board, and the present invention is not limited thereto. The connecting member 131 may be a pin connecting member, so that the connecting member 131 can be inserted into the absorbent body 110. The transceiver assembly 130 may further include an impedance sensor (not shown). The impedance sensor is electrically connected to the connecting member 131 and configured to sense the impedance value between the wires 122 so as to obtain a plurality of time-dependent impedance values and a time-dependent impedance change. A processing element (not shown) is employed and configured to analyze the time-dependent change in impedance values between the wires 122, so as to determine and predict the occurrence of urination and excretion of the care receiver and to issue an alarm timely. The processing element may be disposed in the transceiver assembly 130 or in a monitoring module (not shown) that is signally connected to the transceiver assembly 130. The conductive pad 124 is disposed close to a belt 111 of the absorbent body 110 and the clamp body 132 clamps the belt 111; therefore, the connection between the connecting member 131 and the conductive pad 124 is realized.
In the present embodiment, when the transceiver assembly 130 is coupled to the absorbent body 110, the connecting member 131 passes through the second film sheet 123 to connect to the conductive pad 124, so that the transceiver assembly 130 can be electrically connected to the wire 122 through the conductive pad 124. As compared to smart diapers in the prior art, the smart nursing consumable 100 of the present embodiment does not have any openings; and therefore, no release paper for covering openings is required. As a result, not only the cost for the release paper is saved but also the issue of accidental detachment of the release paper is avoided. Further, the smart nursing consumable 100 of the present embodiment has improved usability as removal of the release paper before using the smart nursing consumable 100 is no longer required.
In addition, being disposed above the absorbent body 110, the sensor module 120 has improved sensibility. Specifically, in each urination, the urine would pass through the wires 122 and eventually be absorbed by the water-absorbing layer 113. When the urine permeates to the wires 122, the impedance value between the wires 122 would exhibit a significant change; then, the impedance value change is narrowed when the urine permeated to the wires 122 is gradually absorbed by the water-absorbing layer 113; and eventually the impedance value returns to the original value when the urine is completely absorbed by the water-absorbing layer 113. As a result, in each urination, the impedance sensor can sense a time-dependent waveform-like impedance change. Through the waveform-like impedance change, the time and duration of each urination are recorded and analyzed; and consequently, the number of times and frequency of urination, as well as the amount of urine, etc. are obtained. As a result, the detection and determination of the health condition of the care receiver, such as urination frequency or urinary tract infections, are facilitated. In addition, when the care receiver excretes, the feces would pass through the pores of the second film sheet 123 and stick to the wires 122 or the areas between the wires 122; and therefore, the impedance value changed due to the excrements would not return back to the original value. As a result, every time when an unrecoverable impedance value is observed, excretion of the care receiver can be determined. Further, according to the quantity of the wires 122 having short circuit, areas of the smart nursing consumable 100 wetted by urine or other liquids can be determined. Further, the smart nursing consumable 100 of the present invention may be implemented with some specific technical features to measure reactance or resistance by frequency or to analyze PH values, thereby facilitating the sensing and determination of the care receiver's physiological conditions. Therefore, it is to be understood that the present invention is different from the prior art, in which only the threshold value of resistance is measured.
In the smart nursing consumable 100 of the present embodiment, because the sensor module 120 is disposed above the absorbent body 110, the urination or excretion of the care receiver can be detected and determined according to the waveform of the sensed signal, thereby facilitating the determination and prediction of the care receiver's conditions. In addition, to provide comfort without any foreign body sensation and to prevent the sensor module 120 from blocking liquid permeation, the present invention employs the wires 122 instead of the conductive tapes used in the prior art. In a preferred embodiment, the width of the wire 122 ranges from 0.05 millimeter (mm) to 1 mm. Having such widths, the wires 122 tend to fall into the pores of the first film sheet 121 or the second film sheet 123, leading to poor connection between the wires 122 and the connecting member 131 of the clamp body 132; therefore, the conductive pad 124 is employed to avoid the occurrence of the aforementioned situation and the resulted error signal. In addition, by using the first film sheet 121 and the second film sheet 123 to wrap around the wires 122, the wires 122 are prevented from directly contact with the care receiver's skin and the water draining layer 115, thus avoiding the error signal. In addition, the wire 122 may be made of alloy to avoid the wire breakage. In one embodiment, the wire 122 is made of tin-copper alloy, but the present invention is not limited thereto.
When being applied to smart gauze for covering wounds, the smart nursing consumable 100 of the present invention may be used to sense and analyze whether the wound is bleeding and whether the breeding is excessive.
Next, as shown in
Next, as shown in
In other embodiments, where the rollable sensor modules 200a, 200b equipped with the conductive pad 240 are used for manufacturing the sensor module 250, the step illustrated in
Because the sensor module 250 is manufactured by cutting off and disposing the rollable sensor modules 200, 200a or 200b on the absorbent body 110, the method of manufacturing a smart nursing consumable of the present invention has improved production efficiency.
In summary, because the sensor module is disposed above the absorbent body, the smart nursing consumable of the present invention has improved sensibility. In addition, because the wires are covered by the second film sheet, comfort of the use and connectivity of the wires would not be affected. Further, as compared with the smart nursing consumables of the prior art, the smart nursing consumable of the present invention does not require the use of release papers; and consequently, not only the cost for the release paper is saved, but also the issue of accidental detachment of the release paper is avoided. Furthermore, the smart nursing consumable of the present invention has improved usability as removal of the release paper before using the smart nursing consumable is no longer required. Furthermore, because the smart nursing consumable of the present invention is manufactured by cutting off and disposing the rollable sensor module on the absorbent body, the manufacturing method of the smart nursing consumable of the present invention has improved production efficiency.
While the disclosure has been described in terms of what is presently considered to be the most practical and preferred embodiments, it is to be understood that the disclosure needs not be limited to the disclosed embodiment. On the contrary, it is intended to cover various modifications and similar arrangements included within the spirit and scope of the appended claims which are to be accorded with the broadest interpretation so as to encompass all such modifications and similar structures.
Number | Date | Country | Kind |
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201510584755.5 | Sep 2015 | CN | national |