UA136057U - DIAPER MONITORING SYSTEM - Google Patents

Abstract

The diaper status monitoring system includes a sensor unit and a processing unit, in addition the sensor unit further includes a processor unit and connected to it at least one temperature sensor, at least one humidity sensor, power supply and on / off button and LED-indication sensor unit, in addition, the sensor unit includes means for attaching to the diaper, provided that the processing unit is implemented in the form of a computer program recorded on a mobile device, the communication of the sensor unit with the processing unit is carried out using BLUETOOTH technology.

Description

The utility model relates to the field of thermometry and hygrometry, and in particular to devices and systems that provide monitoring of the condition of an absorbent article, such as a diaper for infants and young children, and are used to record and wirelessly discretely transmit data regarding the current state of the absorbent article, enabling the logger to constantly monitor the condition of the diaper, analyze the frequency of bowel movements and change such a product in a timely manner without harming the child's health.

Absorbent products, such as diapers, are widely used both at home and in hospitals for the care of infants and young children, mainly for the control of physiological secretions. At the same time, there is a very important problem related to the fact that absorbent products have a limited absorption capacity, exceeding which will lead, in the simplest case, to ineffective use of the absorbent product, for example, to leakage of liquid, or, much worse, to the application harm to the health of babies in the form of skin redness, diarrhea, etc. Therefore, parents or caregivers of babies should anticipate when it is time to change the diaper. It should be noted that in a hospital setting, when a large number of babies with diapers need to be monitored, monitoring the condition of diapers becomes an extremely important administrative burden.

Systems are known from the prior art that are capable of alerting parents or a person caring for an infant about the need to change a diaper. Such systems are usually integrated into absorbent products, may have built-in sensors connected to a recorder unit that has the ability to record sensor data over a long period of time. Sensors can be, for example, moisture sensors or temperature sensors. After exceeding the preset indicators, the registrar can notify in a certain way that the absorbent product requires replacement.

But it should be noted that the use of such systems is associated with many problems, the main of which is that the cost of producing absorbent products is much lower than the cost of electronic equipment that is integrated into the absorbent product, and taking into account the fact that the absorbent product, as a rule , is disposable, then the product is thrown into the trash along with the electronic equipment,

An absorbent device with a temperature sensor according to RF patent 2571811, publication date 12.20.2015, which also contains at least one temperature-changing material, is known.

Zo is made in such a way that this material is able to regulate temperature changes due to the arrival of excrement, and the specified temperature sensor is able to perceive the regulated temperature change. Despite the fact that the temperature sensor can be used multiple times, there are also many shortcomings of the declared technical solution. Firstly, the use of temperature-changing material increases the cost of the absorbent product, secondly, the production of a multilayer product with repeated placement and positioning of the temperature-changing material requires additional special equipment, thirdly, the temperature-changing material contains chemicals hazardous to health, in particular, citric acid, metal chlorides, which are activated upon contact with liquid.

The closest analogue is the control system according to the PCT/AT2006/000189 application, publication date 11/16/2006, which consists of a passive sensor unit and a processing unit, where the sensor unit is integrated into the diaper material and wirelessly transmits data about the state of the diaper to the processing unit , which monitors, analyzes and records the stated state of the diaper. At the same time, the sensor unit is implemented as a passive system based on the principle of radar location, i.e. the processing unit generates an electromagnetic wave that reaches the sensor unit and receives the response of the sensor unit in the form of a pulse consisting of an identification number and measurement data. The main drawback of the known solution is the high cost of implementing this system, since each diaper must be equipped with a sensor unit, which is impractical considering that such products are disposable. In addition, the principle underlying the operation of this system has disadvantages, which are that if there is any obstacle in the path of the electromagnetic wave, the communication between the processing unit and the sensor unit is broken, which leads to a false alarm signal . In addition, there is a risk that some cases of excrement in the diaper may go undetected, especially when the difference between the temperature of a dry or partially wet diaper or part of it is practically the same as the temperature of the excrement.

The useful model is based on the task of improving the diaper condition control system, which due to new design changes will reduce the total cost of the device, significantly increase the reliability of the data obtained, which will allow improving the control over the health of babies by analyzing the number and time of bowel movements and timely taking the decision to change the diaper.

The objective is achieved by providing a diaper condition monitoring system that includes a sensor unit and a processing unit, wherein the sensor unit further includes a processor unit and connected thereto, at least one temperature sensor, at least one humidity sensor, a power supply unit, and an on/off button exclusion and I EO-indications of the sensor block, in addition, the block

B of sensors contains means of attachment to the diaper, provided that the processing unit is implemented in the form of a computer program recorded on a mobile device, the connection of the sensor unit with the processing unit is carried out using V SHETOOTN technology.

It is advisable to additionally equip the sensor unit with an alarm sensor that transmits a corresponding signal to the processing unit when the system is moved away from the processing unit.

It is advisable to include a clock generator and an internal clock pulse generator connected to the processor unit to the sensor unit.

It is advisable to choose a mobile device for placing the processing unit from a group that includes an iPhone, smartphone, mobile phone, tablet, laptop, etc.

It is advisable to implement the means of fastening the sensor unit in the form of an overlay with petals, the central part of which is attached to the reverse side of the sensor unit with the help of a sticky sticker, and with the help of petals that contain microhooks, similar to microhooks in fasteners

Velcro, the sensor unit is attached to the diaper.

Unexpectedly, it was found that if the data of the temperature sensor and the humidity sensor are simultaneously transmitted from the sensor unit to the processing unit, this contributes to the fact that not a single bowel movement of the child remains unaccounted for. In addition, the analysis of the frequency of defecation (urination and/or defecation) of the child per day for at least one month, summarized in a suitable graph that reflects the frequency and periodicity of defecation, can significantly help in order to train the child to the potty.

The processing unit stores and processes the data received from the sensor unit for each diaper, as well as data for all diapers used during a certain time. Analyzing data on an individual diaper allows timely notification of the need to change the diaper. As a rule, the degree of filling of the diaper can be determined by its humidity (humidity sensor), and the increase or decrease in temperature inside the diaper is determined by the readings of the temperature sensor. This will not only prevent the appearance of rashes, sores on the body

From the child, but also to provide comfortable conditions for the child when using a diaper. In addition, the processing unit analyzes the data received from the sensor unit, distributes the number of stools by time and reminds the parents or the person supervising the child about the need to give the child water.

Equipping the sensor unit with an alarm sensor allows you to monitor situations when the distance between the child (sensor unit) and the parent or caregiver (processing unit) exceeds the default value, for example, when the distance is more than 10 meters.

The following figures, as well as descriptions of examples of a specific implementation of the diaper condition control system, are provided only to explain the design features of the heat pump, to illustrate the claimed utility model, and do not limit the scope of rights defined by the utility model formula:

Fig. 1 - general diagram of the control system;

Fig. 2 - view of the control system from the front with means of attachment to the diaper;

Fig. C - rear view of the control system;

Fig. 4 - a general view of the diaper with possible placement of the control system.

According to Fig. 1 control system 1 of the state of the diaper 2 contains a sensor unit C and a processing unit 4.

At the same time, the sensor unit C includes a processor unit 5 and connected to it, at least one temperature sensor 6, at least one humidity sensor 7, a power supply unit 8, and an on/off button and EO-indications 9 of the sensor unit 3. In addition , the sensor unit C contains means of fastening 10 to the diaper 2. System 1 functions on the condition that the processing unit 4 is implemented in the form of a computer program recorded on the mobile device 11, and the communication of the sensor unit C with the processing unit 4 is carried out using technology VIOSHETOOTN. The sensor unit C is additionally equipped with an alarm sensor 12, which transmits a corresponding signal to the processing unit 4 when the sensor unit C is significantly (set by default) moved away from the processing unit 4. The sensor unit C also includes a clock generator 13 and an internal clock pulse generator 14 with connected to the processor unit 5. According to Fig. 2 means of fastening 10 of sensor unit C to diaper 2 are implemented in the form of a pad 15 with petals 16, the central part of which is attached to the reverse side of sensor unit 3 with the help of an adhesive sticker 17 (Fig. 3), and with the help of the front side of petals 16, which contain microhooks (not shown), similar to the microhooks in Velcro fasteners, sensor unit C is attached to diaper 2 (Fig. 4).

The claimed utility model control system works as follows. Before the first use, the system 1 is pre-prepared: software is loaded on the mobile device 11 - processing unit 4; on the mobile device 11 activate the В ШЕТООТН function; the means of fastening 10 of the sensor unit 3, namely: the overlay 15 is glued to the back surface of the sensor unit C with the help of a sticky sticker 17; include sensor unit C using the on/off button and GEO indication 9 of sensor unit 3; button 9 is illuminated, as a rule, by a green light; attach the sensor unit C to the necessary surface of the diaper 2, taking into account the shape of the diaper and the gender of the child.

System 1 is functionally ready for use. The preferred interface between the temperature sensors 6 and humidity 7 and the processor unit 5 is the 1I2C interface, but others may be acceptable for use. Processor unit 5, mainly the KTG module. 8762AS, has an operating frequency range of 2402-2480 GHz, the number of data transmission channels is 79, the operating channel width is 1 MHz, the response time is 8 s, that is, every 8 seconds the temperature sensor 6 and the humidity sensor 7 send a signal to the processor unit 5 regarding the current state diaper 2, from which the data on the VGOETOTN technology are transmitted to the processing unit 4. Therefore, you can be sure that every bowel movement of the child, whether it is urination or defecation, will not remain unnoticed.

If the distance between the sensor unit Z placed on the diaper 2 and the processing unit 4 (mobile device 11) exceeds the predetermined distance, the alarm sensor 12 instantly transmits the corresponding alarm signal to the processing unit 4. It is clear that no additional sound signals are given by the alarm sensor. The processing unit 4 stores and processes the data received from the sensor unit C regarding each diaper 2, as well as data regarding all diapers used during a certain time. Analyzing the data related to a separate diaper 2 allows you to receive a timely message about the need to replace diaper 2. As a rule, the degree of filling of diaper 2 can be determined by its overall humidity (data from the moisture sensor 7), and the increase or decrease in temperature inside the diaper 2 is determined by the readings of the sensor temperature 6. This will not only prevent the appearance of rashes, sores on the child's body, but also provide comfortable conditions for the child when using diaper 2. In addition, the processing unit 4 analyzes the data received from the sensor unit C, distributes the number of bowel movements by time and reminds parents or to the person supervising the child, about the need to give the child water in a timely manner. The fact of replacement and use of a new diaper 2 is automatically established by the processing unit 4 according to the readings of the temperature sensors 6 and humidity 7. The sensor unit C is easily removed from the used diaper 2 and is just as easily installed on a new diaper.

Thus, the control system of the claimed useful model, due to new design changes, allows to reduce the total cost of the system, significantly increase the reliability of the data received from the sensors, which will allow to record and take into account each defecation of the child, increase the convenience and high speed of data processing and make decisions and recommendations on the necessary current actions, which will generally improve control over the health of infants through virtual care of the child's condition. In addition, the analysis of the number and time of bowel movements will allow parents or the person supervising the child to make timely decisions about changing the diaper or performing other actions related to the care of the child.

Claims (5)

USEFUL MODEL FORMULA 1. A diaper condition monitoring system comprising a sensor unit and a processing unit, characterized in that the sensor unit further includes a processor unit and at least one temperature sensor, at least one moisture sensor, a power supply, and an on/off button connected thereto, and And Eb-indications of the sensor unit, in addition, the sensor unit contains means of attachment to the diaper, provided that the processing unit is implemented in the form of a computer program recorded on a mobile device, the communication of the sensor unit with the processing unit is carried out using VGOETOOTN technology. 2. The system according to claim 1, which differs in that the sensor unit is additionally equipped with an alarm sensor that transmits a corresponding signal to the processing unit when the sensor unit is moved away from the processing unit. C. The system according to claim 1 or claim 2, which differs in that the sensor unit includes a clock generator and an internal clock pulse generator connected to the processor unit. 4. The system according to any one of claims 1-3, which is characterized by the fact that the mobile device for placing the processing unit is selected from the group that includes an iPhone, a smartphone, a mobile phone, a tablet, a laptop, etc. 5. The system according to any one of claims 1-4, which is characterized by the fact that the means of fastening the sensor unit are implemented in the form of an overlay with petals, the central part of which is attached to the reverse side of the sensor unit with the help of an adhesive sticker, and with the help of petals that contain microhooks, similar to the microhooks in Velcro fasteners, the sensor unit is attached to the diaper. : And not us. entrance khz Zh. ! write and aim Щ З в з в E and шише ше ЕВ. YAZ | : i fig. same TK x se. as I Ya oshukhv xx SZZ so Z she Kaya y z Fig. 2. her ЦЯ Ж Ko and х ч нн ка SKU -- and and per en i Eh i Bo Y MikzhiKh i i g Fig. With screws, also - ho x y K ia yah ŽI ho wn o nn x x in K-th JE rketttesesesttthesssstttttnYA