CN113197724B - Intelligent detection diaper - Google Patents

Abstract

The invention discloses an intelligent detection diaper, which is used for detecting whether pollutants exist in the using process of the diaper and judging the pollution degree. The intelligent detection diaper disclosed by the invention can analyze and process the absorption condition of the diaper to judge the corresponding absorption degree of the diaper, so that a worker can replace the diaper in time according to the absorption degree, and can transmit data to a terminal to perform remote detection reminding, and the intelligent detection diaper has the advantages of high safety, sensitive detection, stable structure and the like.

Description

Intelligent detection diaper

Technical Field

The invention belongs to the technical field of diapers, and particularly relates to an intelligent detection diaper.

Background

The paper diaper has the advantages of super water absorption and storage capacity, surface drying maintenance, low cost and the like, and is widely applied to infants and paralytic patients at present. Since infants and certain paralyzed patients have no ability to take care of themselves for a certain period of time, the guardian needs to check whether to urinate or defecate at regular intervals and then perform a diaper changing operation. If the guardian cannot find that the infant or the paralyzed patient urinates or defecates in time, the urine or the defecates discharged by the infant or the paralyzed patient can be attached to the surface of the skin for a long time, and skin diseases are easily caused. At present, a chemical mode is used for prompting a guardian whether to change the paper diaper or not on the paper diaper, but the paper diaper needs to be manually checked repeatedly according to a fixed rule by using vision, and whether to change the paper diaper or not is artificially determined, so that the skin problems of eczema and the like caused by the fact that the paper diaper cannot be changed in time can be generated.

Therefore, the above problems are further improved.

Disclosure of Invention

The invention mainly aims to provide an intelligent detection diaper which can analyze and process the absorption condition of the diaper to judge the corresponding absorption degree of the diaper, so that a worker can replace the diaper in time according to the absorption degree, can transmit data to a terminal to perform remote detection reminding, and has the advantages of high safety, sensitive detection, stable structure and the like.

Another objective of the present invention is to provide an intelligent diaper detection system, which further includes a ventilation detection device for determining the ventilation degree of the diaper, so that a worker can replace the diaper in time according to the ventilation degree, and transmit data to a terminal for remote detection and reminding, and the intelligent diaper detection system has the advantages of high safety, sensitive detection, stable structure, etc.

Another objective of the present invention is to provide an intelligent diaper detection device, which further includes a status indication module, so that the diaper absorption condition can be visually known through the indication device, which is more convenient and efficient.

In order to achieve the above objects, the present invention provides an intelligent detection diaper for detecting whether contaminants exist in the diaper during use and determining the degree of contamination (including urine, etc.), comprising a diaper main body, a processing module and a wireless communication module, wherein:

The diaper body is provided with a substrate layer comprising an ionic compound and an absorption layer comprising a first detection device and a second detection device, the ionic compound (such as sodium chloride and sodium acetate) is used for increasing the electric conductivity between the first detection device and the second detection device, the first detection device and the second detection device are arranged on two sides of the absorption layer (preferably detachably connected, recycled and material-saving), and the first detection device and the second detection device detect pollutants absorbed by the absorption layer to obtain detection data, and transmit the detection data to a processing module in real time;

the processing module receives the detection data and compares the detection data with a preset database to judge the pollution degree of the absorption layer, so that the processing data are obtained and transmitted to the wireless communication module, and the wireless communication module transmits the processing data to a terminal (communication equipment such as a mobile phone, so that a receiver can know the real-time absorption state of the diaper and timely change the diaper).

As a further preferred technical solution of the above technical solution, the intelligent detection diaper further includes a state indicating module, the state indicating module is mounted on the outer periphery of the diaper main body, and indicates through an indicating device (including an indicator light and an alarm) after receiving the processing data transmitted by the processing module, for visually indicating the absorption state of the current absorption layer.

As a further preferable technical solution of the above technical solution, the substrate layer is located below the absorption layer, when the contaminant is absorbed by the absorption layer and with the increase of the contaminant, the contaminant permeates into the substrate layer, the substrate layer releases the ionic compound (urine is firstly absorbed by the absorption layer, when a certain absorption area of the absorption layer reaches absorption saturation, urine permeates into the substrate layer, then the ionic compound of the substrate layer dissolves in the urine, and releases the dissolved ion into the urine absorbed by the absorption layer, thereby increasing the conductivity between the first detection device and the second detection device, the contamination degree also increases, when most of the ionic compound of the substrate layer is dissolved and released into the urine of the absorption layer, then the detection current reaches the highest area in the data, in other words, the diaper is in a condition for continued use when urine has not penetrated the base layer, alerting the need to change the diaper when the ionic compound of the base layer is mostly dissolved and released into the urine in the absorbent layer).

As a further preferable embodiment of the above-mentioned technical means, the contamination degree of the absorption layer is divided into 4 types, wherein:

When the detection data obtained by the first detection device and the second detection device are matched with a first area of a preset database (the detection current between the first detection device and the second detection device is in accordance with the first area in the database), the absorption layer is in a first pollution degree (urine is absorbed by the absorption layer and does not permeate into the basal layer yet);

when the detection data obtained by the first detection device and the second detection device are matched with a second area of a preset database (the detection current between the first detection device and the second detection device is in accordance with the second area in the database), the absorption layer has a second pollution degree (urine just starts to permeate into the basal layer, so that ionic compounds in the basal layer are dissolved in the urine to be detected, and the detection current is greatly increased compared with the first pollution degree);

when the detection data obtained by the first detection device and the second detection device are matched with a third area of a preset database (the detection current between the first detection device and the second detection device is in accordance with the first area in the database), the absorption layer has a third pollution degree (urine permeates into the basal layer on the premise that the absorption layer is in a saturated absorption state, ionic compounds in the basal layer are dissolved in the urine and detected, and the detection current is greatly increased compared with the second pollution degree);

When the detection data obtained by the first detection device and the second detection device are matched with a fourth area of a preset database (the magnitude of the detection current between the detection data obtained by the first detection device and the detection data obtained by the second detection device are in accordance with the first area in the database), the absorption layer has a fourth pollution degree (the detected current is in a steady state and does not increase greatly, which indicates that most of the ionic compounds in the base layer are dissolved, and the diaper needs to be replaced).

As a further preferred technical solution of the above technical solution, the indication states of the state indication module are divided into 4 types, wherein:

when the absorption layer is in a first pollution degree, the state indicating module is in a first indicating state and indicates through a green indicating lamp;

when the absorption layer is in a second pollution degree, the state indicating module is in a second indicating state and indicates through a blue indicating lamp;

when the absorption layer is in a third pollution degree, the state indicating module is in a third indicating state and indicates through a yellow indicating lamp;

when the absorption layer is in a fourth pollution level, the state indicating module is in a fourth indicating state, and the red indicator light and the alarm are turned on for indication.

As a further preferred technical scheme of above-mentioned technical scheme, the intellectual detection system diaper still includes ventilative detection module, ventilative detection module real-time detection is ventilative the condition to form ventilative data, and with ventilative data transmission to processing module, processing module compares ventilative data with predetermined database, in order to judge ventilative degree, thereby obtain ventilative data, and with ventilative data transmission to wireless communication module, wireless communication module will breathe freely data transmission to terminal (communication facilities such as cell-phone, thereby let the receiver know the real-time ventilative state of diaper, and change the diaper in time).

Detailed Description

The following description is provided to disclose the invention so as to enable any person skilled in the art to practice the invention. The preferred embodiments in the following description are given by way of example only, and other obvious variations will occur to those skilled in the art. The basic principles of the invention, as defined in the following description, may be applied to other embodiments, variations, modifications, equivalents, and other technical solutions without departing from the spirit and scope of the invention.

In the preferred embodiment of the present invention, those skilled in the art should note that the diaper main body, the indicator lamp, and the like, to which the present invention relates, can be regarded as the prior art.

Preferred embodiments.

The invention discloses an intelligent detection diaper, which is used for detecting whether pollutants exist in the using process of the diaper and judging the pollution degree (including urine and the like), and comprises a diaper main body, a processing module and a wireless communication module, wherein:

the diaper body is provided with a substrate layer comprising an ionic compound and an absorption layer comprising a first detection device and a second detection device, the ionic compound (such as sodium chloride and sodium acetate) is used for increasing the electric conductivity between the first detection device and the second detection device, the first detection device and the second detection device are arranged on two sides of the absorption layer (preferably detachably connected, recycled and material-saving), and the first detection device and the second detection device detect pollutants absorbed by the absorption layer to obtain detection data, and transmit the detection data to a processing module in real time;

the processing module receives the detection data and compares the detection data with a preset database to judge the pollution degree of the absorption layer, so that the processing data is obtained and transmitted to the wireless communication module, and the wireless communication module transmits the processing data to a terminal (communication equipment such as a mobile phone, and the like), so that a receiver can know the real-time absorption state of the diaper and timely replace the diaper.

Specifically, the intelligent detection diaper further comprises a state indicating module, wherein the state indicating module is installed on the outer periphery of the diaper main body, and indicates the absorption state of the current absorption layer through an indicating device (comprising an indicating lamp and an alarm) after receiving the processing data transmitted by the processing module.

More specifically, the substrate layer is located below the absorbent layer, when the contaminant is absorbed by the absorbent layer and with the increase of the contaminant, the contaminant permeates into the substrate layer, the substrate layer releases the ionic compound (urine is firstly absorbed by the absorbent layer, when a certain absorption area of the absorbent layer reaches absorption saturation, the urine permeates into the substrate layer, the ionic compound of the substrate layer is dissolved in the urine, and the dissolved ion is released into the urine absorbed by the absorbent layer, so that the conductivity between the first detection device and the second detection device is increased, the degree of contamination is increased, when most of the ionic compound of the substrate layer is dissolved and released into the urine of the absorbent layer, the detection current reaches the highest area in the data, in other words, when the urine does not permeate into the substrate layer, the diaper is in a continuous use state, alerting the need to change the diaper when the ionic compound of the base layer is mostly dissolved and released into the urine of the absorbent layer).

Further, the degree of contamination of the absorption layer was divided into 4 types, among which:

when the detection data obtained by the first detection device and the second detection device are matched with a first area of a preset database (the magnitude of detection current between the first detection device and the second detection device accords with the first area in the database), the absorption layer is in a first pollution degree (urine is absorbed by the absorption layer and does not permeate into the substrate layer);

when the detection data obtained by the first detection device and the second detection device are matched with a second area of a preset database (the magnitude of the detection current between the detection data obtained by the first detection device and the detection data obtained by the second detection device are consistent with the second area in the database), the absorption layer has a second pollution degree (urine just starts to permeate into the basal layer, so that ionic compounds in the basal layer are dissolved into the urine to be detected, and the detection current is greatly increased compared with the first pollution degree);

when the detection data obtained by the first detection device and the second detection device are matched with a third area of a preset database (the detection current between the first detection device and the second detection device accords with the first area in the database), the absorption layer has a third pollution degree (urine permeates into the basal layer on the premise that the absorption layer reaches an absorption saturation state, ionic compounds in the basal layer are dissolved into the urine to be detected, and the detection current is greatly increased compared with the second pollution degree);

When the detection data obtained by the first detection device and the second detection device are matched with a fourth area of a preset database (the magnitude of the detection current between the detection data obtained by the first detection device and the detection data obtained by the second detection device are in accordance with the first area in the database), the absorption layer has a fourth pollution degree (the detected current is in a steady state and does not increase greatly, which indicates that most of the ionic compounds in the base layer are dissolved, and the diaper needs to be replaced).

Furthermore, the indication states of the state indication module are divided into 4 types, wherein:

when the absorption layer is in a first pollution degree, the state indicating module is in a first indicating state and indicates through a green indicating lamp;

when the absorption layer is in a second pollution degree, the state indicating module is in a second indicating state and indicates through a blue indicating lamp;

when the absorption layer is in a third pollution degree, the state indicating module is in a third indicating state and indicates through a yellow indicating lamp;

when the absorption layer is in a fourth pollution level, the state indicating module is in a fourth indicating state, and the red indicator light and the alarm are turned on for indication.

Preferably, intellectual detection system diaper still includes ventilative detection module, ventilative detection module real-time detection ventilative condition to form ventilative data, and with ventilative data transmission to processing module, processing module compares ventilative data with predetermined database, in order to judge ventilative degree, thereby obtains ventilative data, and with ventilative data transmission to wireless communication module, wireless communication module will ventilative data transmission to terminal (communication equipment such as cell-phone, thereby let the receiver know the real-time ventilative state of diaper, and in time change diaper).

Preferably, the ventilation detection module, the processing module and the status indication module can be linked, and the ventilation status is indicated through the status indication module.

Preferably, the detection means are embedded with a conductivity sensor which can measure the change in resistance of the material between the conductive electrodes (first and second detection means), in particular, the material between the conductive electrodes is pre-treated to enhance the change in resistance between a dry state and a dirty state in the diaper.

Preferably, the ionic compound pretreats one or more materials to increase detection sensitivity, and the one or more pretreated materials are located at different locations on the substrate layer, and their treatment not only changes the release time of the ionic compound, but also helps to determine the location of the insult area in the disclosed diaper, thereby determining which insult area is most permeable, in other words, which area is most susceptible to insult, thereby allowing for increased thickness of the absorbent layer in that area, among other measures.

It should be noted that the technical features of the diaper body, the indicator lights, etc. related to the present patent application should be regarded as the prior art, and the specific structure, the operation principle, the control mode and the spatial arrangement mode of the technical features may be selected conventionally in the field, and should not be regarded as the invention point of the present patent, and the present patent is not further specifically described in detail.

It will be apparent to those skilled in the art that modifications and equivalents may be made in the embodiments and/or portions thereof without departing from the spirit and scope of the present invention.

Claims (4)

1. An intelligent detection diaper for detecting whether pollutants exist in the using process of the diaper and judging the pollution degree, which is characterized by comprising a diaper main body, a processing module and a wireless communication module, wherein:

the diaper main body is provided with a substrate layer comprising ionic compounds and an absorption layer comprising a first detection device and a second detection device, the ionic compounds are used for increasing the conductivity between the first detection device and the second detection device, the first detection device and the second detection device are installed on two sides of the absorption layer, and the first detection device and the second detection device are used for detecting pollutants absorbed by the absorption layer to obtain detection data, and the detection data are transmitted to the processing module in real time;

the processing module receives the detection data, compares the detection data with a preset database to judge the pollution degree of the absorption layer so as to obtain processing data, and transmits the processing data to the wireless communication module, and the wireless communication module transmits the processing data to the terminal;

The first detection device and the second detection device are detachably connected with the absorption layer respectively;

the base layer is positioned below the absorption layer, when the pollutants are absorbed by the absorption layer and increase along with the pollutants, the pollutants are caused to permeate the base layer, the base layer releases ionic compounds, urine is firstly absorbed by the absorption layer, when a certain absorption area of the absorption layer reaches absorption saturation, the urine permeates the base layer, the ionic compounds of the base layer are dissolved in the urine, and dissolved ions are released into the urine absorbed by the absorption layer, so that the electric conductivity between the first detection device and the second detection device is increased, the pollution degree is increased, when most of the ionic compounds of the base layer are dissolved and released into the urine of the absorption layer, the detection current reaches the highest area in the data, in other words, the diaper is in a continuous use state when the urine does not permeate the base layer yet, alerting the need to change the diaper when the ionic compound of the base layer is mostly dissolved and released into the urine of the absorbent layer;

the degree of contamination of the absorbent layer was divided into 4 categories, of which:

When the detection data obtained by the first detection device and the second detection device are matched with a first area of a preset database, the detection current between the first detection device and the second detection device accords with the first area in the database, the absorption layer has a first pollution degree, and urine is absorbed by the absorption layer and does not permeate into the substrate layer;

when the detection data obtained by the first detection device and the second detection device are matched with a second area of a preset database, the detection current between the first detection device and the second detection device accords with the second area in the database, the absorption layer has a second pollution degree, urine just begins to permeate into the basal layer, so that the ionic compound in the basal layer is dissolved in the urine to be detected, and the detection current is greatly increased compared with the first pollution degree;

when the detection data obtained by the first detection device and the second detection device are matched with a third area of a preset database, the detection current between the first detection device and the second detection device is in accordance with the third area in the database, the absorption layer has a third pollution degree, urine permeates into the base layer on the premise that the absorption layer is in a saturated absorption state, ionic compounds in the base layer are dissolved in the urine and detected, and the detection current is greatly increased compared with the second pollution degree;

When the detection data obtained by the first detection device and the second detection device are matched with a fourth area of a preset database, the detection current between the first detection device and the second detection device is in accordance with the fourth area in the database, the absorption layer has a fourth pollution degree, the detected current is in a stable state and does not increase greatly, most of ionic compounds in the base layer are dissolved, and the diaper needs to be replaced.

2. The intelligent detection diaper of claim 1, further comprising a status indication module, wherein the status indication module is installed on the outer periphery of the diaper body, and receives the processing data transmitted by the processing module and indicates the data through an indication device, so as to visually indicate the current absorption state of the absorption layer.

3. The intelligent detection diaper of claim 2, wherein the indication states of the state indication module are divided into 4 types, wherein:

when the absorption layer is in the first pollution degree, the state indicating module is in a first indicating state and indicates through a green indicating lamp;

when the absorption layer is in the second pollution degree, the state indicating module is in a second indicating state and indicates through a blue indicating lamp;

When the absorption layer is in a third pollution degree, the state indicating module is in a third indicating state and indicates through a yellow indicating lamp;

when the absorption layer is in a fourth pollution level, the state indicating module is in a fourth indicating state, and the red indicator light and the alarm are turned on for indication.

4. The intelligent detection diaper according to claim 1, further comprising a ventilation detection module, wherein the ventilation detection module detects ventilation in real time to form ventilation data and transmits the ventilation data to the processing module, the processing module compares the ventilation data with a preset database to determine ventilation degree, so as to obtain ventilation data and transmits the ventilation data to the wireless communication module, and the wireless communication module transmits the ventilation data to a terminal.