CN112294018A - Personal customized sleep mat and method of use - Google Patents

Abstract

The application provides a personal customized sleep mat and an application method thereof, comprising the following steps: the intelligent sleeping mat is characterized in that a pure metal material PTC is used, a sleeping mat which is built in the sleeping mat and controls the temperature of the sleeping mat, and a direct current power supply is provided for the sleeping mat. The technical scheme of the application has the advantage of personal customization.

Description

Personal customized sleep mat and method of use

Technical Field

The application relates to the field of sleep, in particular to a customized sleep mat and an application method thereof.

Background

In general, sleep is a very important part of a person's daily activities, similar to the periodic repetitive loss of physiological consciousness, which is scientifically treated and then it is used to detect brain waves to grasp the state of sleep.

As sleep progresses, the electroencephalogram changes toward a decrease in frequency. Recently, it has been known for some time that it is considered as a very deep sleep, which is called a parar (para) sleep.

Parasleep, called REM sleep, occurs at regular intervals of 3 to 5 times per night (about 1 hour and a half) and becomes progressively longer as dawn comes. In contrast, normal sleep is light sleep, which usually occurs at dawn, with a shallow depth of sleep.

In sleep medicine, sleep stages of a sleeper are classified into wake/stage 1 to 4/REM sleep, and sleep quality of the sleeper is evaluated by analyzing stages during sleep.

Common techniques for sleep analysis of a sleeper include brain wave frequency analysis, analysis using heart rate variability, analysis using oxygen saturation and analysis using an actigraph. Among these techniques, an analysis technique using oxygen saturation and an electrostatic recorder is used for simple sleep analysis at low cost.

However, to determine the suitability of such sleep analysis, the sleep experience must be performed over a long time on the provided sleep analysis system, but can usually only be selected by a short test.

Accordingly, there is a need for a sleep management system that can automatically adjust the support and comfort characteristics of the sleep system based on the physical changes of the sleeper.

In particular, a sleeper using a hot water pad in a sleep management system is sensitive to temperature, and thus, when temperature variation during sleep is severe, the sleeper easily wakes up or has difficulty falling asleep due to frequent movement during sleep.

That is, most of the conventional hot water pads or electric pads are manufactured by a simple operation, for example, setting a temperature to 30 to 50 degrees, operating at the temperature, and automatically turning off at the end of a scheduled time.

However, in this case, if the mat heating temperature and the body temperature of a person reach the saturation temperature while sleeping on the hot water mat, the temperature is excessively high to cause low-temperature scald, or the quilt is kicked when rolling the reverse side. Therefore, people sometimes feel cold when sleeping badly or kicking a quilt.

Recently, immunity has become a very important topic in the case where the problem of new coronary infections brings about a variety of cultural changes, and in this case, healthy sleep should be said to be a very important factor for immunity and health.

In korean patent laid-open No. 10-2017-0114753 (hot water mat using sleep management device), which is installed in a hot water mat, an acceleration sensor is used to measure acceleration according to a change in the physical condition of a sleeper. A temperature sensor for measuring a temperature of the hot water pad; and a control unit which controls a temperature of the hot water pad through the hot water pad by receiving information on the physical movement of the sleeper sensed by the acceleration sensor and a sleep movement such as a physical movement occurring during sleep using the sleep management apparatus. With this information, the temperature of the hot water pad is controlled to prompt the sleeper to change the sleeping posture, thereby enabling the sleeper to obtain good sleep.

In addition, korean patent No. 10-0778461 (heating device of hot water mat having electric field shielding function) is technically characterized by a heater for heating hot water in a heating device formed as a heating mat circulating by heating water (water). The shielding circuit of the control device is formed to shield an electric field, but the heater is a dual heater with an insulating material, which is formed with a shielding tube and a waterproof tube in sequence outside a terminal pin, and a separate ground terminal on one side of the shielding tube. It is formed to shield an electric field together with a ground terminal of a shield circuit, thereby protecting a user from a leakage current such as electric field exposure and electric shock when using the hot water circulation type thermal pad.

As described above, recently, various studies have been made to provide a mat suitable for personal characteristics of a sleeper or a user, but both an electric floor and a thermal mat basically require a shielding structure to prevent electromagnetic waves, and the mat itself has problems such as difficulty in movement due to a thick base thickness.

Disclosure of Invention

The present invention solves all the disadvantages and problems of the prior art as described above by measuring sleep habits and indoor temperature of sleep pad consumers in a regulator controlling the temperature of the sleep pad and sleeping using a mobile application deep learning technique. By analyzing the sleeping habits of the user of the sleeping mat and controlling the temperature of the sleeping mat according to the ambient temperature and the change in the sleeping pattern of the consumer, it is possible to achieve an optimal sleep for each individual user and solve the electromagnetic wave problem by working using a direct current power supply. The heater of the sleep mat is sensorless controlled to sense temperature as accurately as possible, and the sleep mat can be easily moved and personalized by providing a thin thickness of the sleep mat using the sheet of PTC material as a heat source of the heater. Aims to provide a customized sleeping mat and an operation method thereof.

To achieve the above objects, the present invention is a sleep pad heater constructed using a pure metal material, a fine characteristic material (PTC) of the pure metal material, and built in a sleep pad. And a sleep mat controller that controls a temperature of the sleep mat heater, supplies a dc (dc) power to the sleep mat heater, and transmits a sleep mode of a user to the smart device using the sleep mat heater. The sleep mat controller transmits a user's sleep pattern to a smart device installed with a sleep application (App), and receives a control pattern analyzed by the sleep application of the smart device according to the sleep pattern transmitted from the smart device, which provides a personalized sleep mat, characterized in that the control pattern is configured to control the temperature of a sleep mat heater made of a pure metal material fine characteristic material (PTC) when the user sleeps.

Here, the sleep pad controller, a bridge rectifier unit converting Alternating Current (AC) into Direct Current (DC), and an SMPS component outputting the DC converted by the bridge rectifier into a first voltage (28V) and a second voltage (5V), a sensorless control unit supplying the first voltage of the SMPS component to the sleep pad heater, an ambient temperature detection unit detecting an ambient temperature through a temperature sensor, and a Bluetooth module supporting Bluetooth communication when communicating with the smart device and the sleep pad controller. An LED control unit for controlling the LEDs to display the on/off or working state of the sleep pad controller, an FND control unit for controlling 7 segments to display the set temperature and the current temperature of the sleep pad heater, and a touch control unit and a bridge rectifier unit when the sleep pad controller inputs the touch of a user in various settings such as on/off and temperature setting, an SMPS configuration unit, a sensorless control unit, an ambient temperature detection unit, a Bluetooth module and the LEDs can control and execute commands according to the touch. The touch control device is characterized by comprising a control unit, an FND control unit and a control unit for controlling the touch control unit.

In addition, the sensorless control unit may cut off the supply of the first voltage to the sleep mat heater for a preset time period, measure a current temperature of the sleep mat heater, and measure a saturation temperature when the human body temperature contacts the mat. The sleeping surface and the mat surface temperature are analyzed by analyzing the surface temperature of the mat when the sleeping mat heater falls asleep or falls asleep, but the resistance value of the sleeping mat heater is compared with a preset graph or table to compare the mat surface. Characterized by analyzing the temperature.

Meanwhile, the sleeping mat heater is formed of a metal thin plate including a copper thin plate or an Fe thin plate or an Ni thin plate, and the thickness of the metal thin plate is 0.1mm or less, and the pattern width is formed within 5 mm-10 mm, and the thickness of the sleeping mat is malleable. The outer circumferential surface of the metal thin plate is wrapped with polyurethane foam, and the outer circumferential surface of the polyurethane foam is covered with a waterproof fabric including the metal thin plate, the polyurethane foam and the waterproof fabric, and is formed to a thickness of 1-2 mm.

In addition, in order to achieve the above object, the present invention includes the steps of downloading an APP on a smart device, installing and executing a sleep application; running the application of the intelligent equipment, and inputting user information and mat information placed on the sleeping mat; the sleep pad controller includes: a user supplies power to the sleep pad heater at a set temperature through a touch control unit of the sleep pad controller; and the sleep pad controller measures the sleep mode of the user through the sensorless control unit and transmits the sleep mode to the smart device through the Bluetooth module. The intelligent equipment collects the sleep mode of the user; a sleep pattern analysis unit of the smart device analyzes a sleep pattern based on the basic information of the user, the sleeping mat information, and the collected sleep pattern. Calculating a control mode of the sleep mat heater according to the analyzed sleep mode; transmitting the calculated control mode to the sleep pad controller; the control unit of the sleep pad controller stores the transmitted control pattern in the memory and controls the temperature of the sleep pad heater.

Here, the user of the sleep mat inputs the sleep satisfaction rule of the sleep mat to the smart device according to a certain control mode transmitted after sleeping, and the smart device is the sleep mat information, the sleep satisfaction information and the control mode information of the user in a preset period. After transmitting to the sleep mat management server, the sleep mat management server collects big data about the sleep mat control information according to the information sent from the smart device, updates the sleep application, and transmits the smart device to the sleep APP, operating the sleep mat controller using the updated sleep APP.

The embodiment according to the present invention has the following effects.

First, by using a metal thin plate of a pure metal material fine characteristic material (PTC) as a heater of a sleep mat, it is possible to prevent temperature from being overheated.

Second, a lightweight and thin-thickness sleeping mat can be provided by using a metal thin plate so that it can be rolled and placed in a separate container for storage and carrying.

Third, it measures sleeping habits and indoor temperature of sleeping mat consumers and analyzes sleeping habits of sleeping mat users using mobile application deep learning techniques to control sleeping mat temperature according to ambient temperature and changes in sleeping patterns of consumers. By doing so, an optimal sleep can be achieved according to individual consumers.

Fourth, the electromagnetic wave problem can be solved by using a DC power supply.

Fifth, the heater of the mat is controlled by a sensor (sensors) to turn on the temperature as accurately as possible, and the set temperature is raised in a short time (within 1 minute) by the metal sheet of the DC power supply. Thus, even if the circuit fails, overheating of the temperature can be prevented.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

Fig. 1 is a block diagram for explaining a personalized sleeping mat according to the present invention.

Fig. 2 is a view showing an embodiment according to the present invention, in which a heater using an electrostatic material is installed in a personalized sleeping mat.

Fig. 3 is a view for explaining one example of a normal sleep range and an abnormal sleep range of a user on the personalized sleep mat according to the present invention.

Fig. 4 is a view for explaining another example of a normal sleep range and an abnormal sleep range of a user on the personalized sleep mat according to the present invention.

Fig. 5 is a view for explaining still another example of a normal sleep range and an abnormal sleep range of a user on the personalized sleep mat according to the present invention.

Fig. 6 is a view illustrating an embodiment of a personalized sleep mat management system according to the present invention.

Fig. 7 is a block diagram illustrating an embodiment of the smart device in the personalized sleep mat management system shown in fig. 6.

Fig. 8 is a block diagram illustrating an embodiment of a sleep mat management server in the personalized sleep mat management system shown in fig. 6.

FIG. 9 is a flow chart illustrating a method of operating a personalized sleep mat in accordance with the present invention.

The reference numbers illustrate:

100 sleep mat controller 110 bridge rectifier

120 SMPS part 130 sensorless control

140 ambient temperature detector 150 bluetooth module

160 LED control part 170 FND control part

180 contact control part 190 control part

200 sleep mat heater 300 intelligent device

310, 320, a communication part 330, a display part

340 sleep pad App, 350 control part

400 sleep mat management server 410 communication part

Mat user specific sleep pattern collection unit 420

430 database

Sleep mat user specific sleep pattern analysis unit 440

450 sleep pattern analysis result/prescription information matching unit

460 sleep mode prescription information transmitter 470 interface

480, a control unit 500, and a communication network.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some, but not all, embodiments of the present application. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

Reference herein to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment can be included in at least one embodiment of the application. The appearances of the phrase in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. It is explicitly and implicitly understood by one skilled in the art that the embodiments described herein can be combined with other embodiments.

The embodiments of the present application will be described below with reference to the drawings.

The term "and/or" in this application is only one kind of association relationship describing the associated object, and means that there may be three kinds of relationships, for example, a and/or B, which may mean: a exists alone, A and B exist simultaneously, and B exists alone. In addition, the character "/" in this document indicates that the former and latter related objects are in an "or" relationship.

The "plurality" appearing in the embodiments of the present application means two or more. The descriptions of the first, second, etc. appearing in the embodiments of the present application are only for illustrating and differentiating the objects, and do not represent the order or the particular limitation of the number of the devices in the embodiments of the present application, and do not constitute any limitation to the embodiments of the present application. The term "connect" in the embodiments of the present application refers to various connection manners, such as direct connection or indirect connection, to implement communication between devices, which is not limited in this embodiment of the present application.

In the present application, "|" means an absolute value;

fig. 1 is a block diagram illustrating a personalized sleep mat according to the present invention, fig. 2 is a view illustrating an embodiment in which a heater using a specific material is installed in the personalized sleep mat according to the present invention, and fig. 3 is a view illustrating the embodiment. Fig. 5 is a view for explaining an example of a normal sleep range and an abnormal sleep range of a user in the personalized sleep mat according to the present invention.

As shown in fig. 1, the personalized sleep mat according to the present invention is composed of a sleep mat controller (100) and a sleep mat heater (200).

Here, the sleep pad controller (100) includes a bridge rectification unit (110), an SMPS assembly (120), a sensorless control unit (130), an ambient temperature detection unit (140), a bluetooth module (150), an LED control unit 160, and an FND control unit (170), including a touch control unit 180 and a control unit (190).

The bridge rectification unit (110) converts the AC power into DC (DC), and the SMPS assembly (120) outputs the converted DC voltage as a first voltage (28V) and a second voltage (5V).

The sensorless controller (130) provides a first voltage of the SMPS component (120) to the sleep pad heater (200). In addition, the supply (heating) of the first voltage supplied to the sleep pad heater (200) is stopped at a predetermined period (e.g., 5 to 10 minutes), the current temperature of the pad is measured, and the body of the person lying on the body is in wide contact with the pad. The saturation temperature of time (fig. 4) and the state of a person in a sleeping state (see fig. 5) or falling asleep from the mat (see fig. 6) were analyzed by measuring the surface temperature of the mat to evaluate the sleeping habits and the quality of sleep. Analysis becomes possible. Alternatively, since the total resistance value of the sleep pad heater varies according to the region in which the person lies, the resistance value according to the region in which the person lies may be compared with a preset graph or table (table). Such a graph or table may be stored in the memory of the controller.

The ambient temperature detector (140) detects the ambient temperature of the sleeping mat controller (100) through a temperature sensor, and is suitable for use indoors and outdoors.

The bluetooth module (150) supports bluetooth communication when communicating between the sleep pad controller (100) and the smart device (300).

The LED control unit (160) controls LEDs that display an on/off or operation state of the sleep pad controller (100). The FND control unit (170) controls 7 segments displaying the set temperature and the current temperature of the sleep mat.

When a user's touch is input during various settings including on/off and temperature settings of the sleep pad controller (100), the touch controller (180) controls to execute a command according to the touch.

The control unit (190) comprises a bridge rectifier unit (110), an SMPS component unit (120), a sensorless control unit (130), an ambient temperature detection unit (140), a Bluetooth module (150), an LED control unit (160), an FND control unit (170) and a touch control unit (180) which are controlled.

The sleep mat controller (100) of the present invention applies a technique of sensing temperature as accurately as possible while controlling the heater of the sleep mat with no sensor (no sensor), and configuring a circuit with an SMPS to operate with a DC power supply. This is very safe when operating with a dc power supply, since the electromagnetic waves of the electrical pads are close to zero.

The sleeping mat heater (200) is composed of heating wires on a mat as shown in fig. 2, and as a heater heat source, a heater pattern is formed of a metal thin plate such as a copper thin plate or an Fe thin plate or an Ni thin plate, and the pattern of the formed heater thin plate is formed. Heat sealed or adhered to the inside of the fabric to form a matte thickness as thin as possible. At this time, the thickness of the metal thin plate as a heat source of the heater should be 0.1mm or less, and the pattern width is preferably formed within 5mm to 10 mm. On the other hand, if the metal thin plate (heater) is formed to a thickness of 0.1mm or less, the thickness of the sleeping mat can be very thin and can be designed to a thickness of 1-2mm with lightness. In any case, it is easy to install and install, and has the advantage of versatility. The sleeping mat may be formed in the following form: a polyurethane foam is formed on an outer peripheral surface of the metal thin plate, and a waterproof fabric is wrapped on the outer peripheral surface of the polyurethane foam.

As such a thin metal plate, a pure metal material fine characteristic material (PTC), which is a pure metal material, is used because if a circuit fails, the temperature of the circuit is destroyed. This is because the temperature can be controlled without a sensor (no sensor) by using a resistance value that varies depending on the temperature.

And because the heating mode is uniformly formed on the whole cushion, the temperature is uniformly heated, and the heating temperature is rapidly increased, so that the warm water cushion has the advantage that the warm water cushion can reach about 40 ℃ in 1 minute, unlike the existing warm water cushion which waits for more than 10 minutes.

The smart machine (300) may include a smart phone or a smart mat, may perform bluetooth communication, and may also download and install an application (App) required by a wireless network through the wireless network. The intelligent machine (300) receives the sleep cushion controller (100) from the sleep cushion heater (200) and transmits the sleep cushion controller to the sleep cushion controller, analyzes the sleep mode of the user, and cooperates with the user to carry out the sleep cushion heater (200).

The present invention has been validated through various papers with an average sleep period of 90 to 120 minutes, and based on these validated papers or conference data, the body temperature and the sleep pad of a person are used to improve the quality of deep and light sleep. It is controlled by controlling the surface temperature.

Typically, the core body temperature of a person before falling asleep is below 33 degrees. It is said that when the standard of the indoor temperature is around 25 degrees, the sleep is most comfortable when the temperature is about 8 degrees higher than the room temperature. Therefore, by configuring the ambient temperature detection unit (140) capable of measuring the indoor temperature in the sleep mat controller (100) (temperature controller) of the present invention, the ambient temperature detection unit (140) detects the indoor temperature, and then the control unit (190) enters the sleep state. The mat heater (200) is driven by artificial intelligence, and the mat temperature varies according to a variation in the indoor temperature.

In addition, as described above, the heating of the sleep mat heater 200 is stopped at the sleep mat controller 100 for a predetermined period of time, and the current temperature of the mat is measured so that the person lies down and the body temperature contacts the mat and lies flat at the saturation temperature (see fig. 5), and the mat falls asleep while falling asleep by analyzing the surface temperature of the mat (see fig. 6), and statistical analysis is performed to evaluate the sleep habit and the quality of sleep.

Thus, by analyzing the sleeping state on the mat, measuring and analyzing data of various environmental changes and evaluating, consumers can develop good sleeping habits while using the mat.

By creating an algorithm for this purpose and driving with a mobile application, it is possible to provide the sleep mat market with a new communication sleep mat that can only control low temperature images and only control the temperatures generated in the prior art.

Fig. 6 is a block diagram illustrating an embodiment of a personalized sleep mat management system according to the present invention, and fig. 7 is a block diagram illustrating an embodiment of an intelligent device in the personalized sleep mat management system shown in fig. 6. Fig. 8 is a block diagram illustrating an embodiment of a sleep mat management server in the personalized sleep mat management system shown in fig. 6.

As shown in fig. 4, an embodiment of a personalized sleep mat management system according to the present invention is composed of a sleep mat controller (100), a smart device (300), and a sleep mat management server (400).

In the personalized sleep mat management system shown in fig. 6, as shown in fig. 7, an embodiment of a smart device includes a first communication unit (bluetooth) (310), a second communication unit (data communication/WiFi), and a display unit (330), which includes a sleep mat App (340) and a control unit (350).

Here, the first communication unit (310) communicates with the sleep pad controller (100) via bluetooth.

In addition, the second communication unit (320) performs data communication (4G, 5G, WiFi) with the sleep pad management server (400). The display unit (330) displays a user guide for using the sleeping mat, but inputs user information (touch screen) for using the sleeping mat and various information required when using basic smart devices (smart phone, smart mat).

The sleep pad App (340) includes a user information collecting unit (341), a user basic information storing unit (342), and a pad use information storing unit (343) (sleep pad controller (100), sleep pad heater (200)) for using the sleep pad, a sleep pattern collecting unit (344) for each sleep time, a sleep pattern analyzing unit (345), and a pad temperature calculating unit (346). The user information collecting unit (341) collects language, gender, age group and smartphone number information of the sleeping mat user, and inputs corresponding information when the app is downloaded and executed. A user basic information storage unit (342) stores information collected by a user information collection unit (341).

The sleep mat use information storage unit (343) stores information on the use of the sleep mat by the user (set temperature information, sleep mat operation time information, sleep time information, thickness information such as mats (bedclothes, blankets) placed on the sleep mat). For reference, the sleep time information may obtain coarse information through operations (on/off) of the sleep pad controller (100) and the sleep pad heater (200).

A sleep pattern collection unit (344) receives and collects sleep patterns of a user from the sleep pad controller (100) during operation of the sleep pad.

The sleep pattern analysis unit (345) analyzes the sleep patterns collected by the sleep pattern collection unit (344).

A pad temperature calculation unit (346) calculates the temperature of the pad according to the sleep time of the user for each sleep time. This may be used to lower the temperature of the sleep pad heater in advance when the temperature of the user is high for a time that deviates from the normal range according to the sleep mode of the user. In addition, after a predetermined period of time has elapsed after the temperature is lowered, the temperature of the sleep mat heater may be raised to a temperature optimized for sleep. The calculated data is transmitted to the sleep pad controller (100) through the first communication unit (310), and the temperature of the sleep pad heater (200) is determined to be controlled by the control unit 190 of the sleep pad controller 100 according to the transmitted data.

In addition, the collected user information, sleep mat usage information, and sleep mode information are transmitted to the sleep mat management server (400) together with unique information (identification information) of the smart device through the second communication unit (320).

As shown in fig. 8, the embodiment of the sleep mat management server in the personalized sleep mat management system shown in fig. 6 shows a communication unit (410), a sleep pattern collection unit (420) of each mat user, a database (430) and each mat user. It includes a sleep pattern analysis unit (440), a sleep pattern analysis result/prescription information matching unit (450), a sleep pattern prescription information transmission unit (460), an interface unit (470) and a control unit (480).

The communication unit (410) communicates with the smart device (300) to transmit and receive usage information and data of the sleep pad user.

The sleep mat user-specific sleep pattern collection unit (420) collects sleep patterns of the sleep mat user transmitted through the smart device (300).

The database (430) includes types of sleep mat or accessory information, sleep health information, sleep mat membership information (user/guardian), sleep mat application (App), and sleep collected by the sleep mat user sleep pattern collection unit (420). Mode information, prescription information according to a prescription, satisfaction information according to a prescription, and the like are stored in the big data.

A sleep mat user specific sleep pattern analysis unit (440) analyzes a plurality of sleep mat user specific sleep patterns transmitted from a plurality of smart devices collected by a sleep mat user specific sleep pattern collection unit (420). The sleep mode analyzes the sleep mode according to user information and sleep pad use information input by a user. Of course, information analyzed by the sleep mode analysis unit (345) of the smart device (300) may be used.

The sleep pattern analysis result/prescription information matching unit (450) is a prescription analyzed according to a sleep pattern of a user, and may include a prescription for adjusting a sleep time according to a thickness of a sleep mat and adjusting a temperature of a sleep mat heater.

A sleep mode specification information transmission unit (460) transmits information specified by the sleep mode analysis result/prescription information matching unit (450) to the smart device of each user via the communication unit (410).

The interface unit (470) is used to interface with an administrator of the sleep pad management server (400), and is connected with a monitor, a keyboard, a mouse, and the like.

The control unit (480) includes a communication unit (410), a sleep pattern collection unit (420) for each pad user, a database (430), a sleep pattern analysis unit (440) for each pad user, a sleep pattern analysis result/prescription information matching unit (450), a sleep pattern prescription information transmission unit (460), and an interface unit (470) to be controlled.

FIG. 9 is a flow chart illustrating a method of operating a personalized sleep mat in accordance with the present invention.

As shown in fig. 9, according to the operation method of the personalized sleep mat of the present invention, a sleep application is downloaded to a smart device, installed and executed (S100).

Then, the user of the smart device runs the application program and inputs basic information (user information, etc.) and sleeping pad information (thickness, material information, etc.) placed on the sleeping pad according to a format (thickness input, material selection, etc.) provided by the application program (S110).

Meanwhile, the sleep pad controller supplies power to the sleep pad heater at a temperature set by a user through a touch control unit of the sleep pad controller (S120).

Meanwhile, the sleep pad controller measures the sleep mode of the user through the sensorless control unit and transmits it to the smart device through the bluetooth module (S130).

The smart device collects the user sleep patterns and transmits them to the management server (S140).

Then, the sleep pattern analysis unit of the smart device analyzes the sleep pattern according to the user basic information, the mat information, and the collected sleep pattern (S150).

Subsequently, a control mode of the sleep pad (a mattress temperature per sleep time) is calculated according to the analyzed sleep mode (S160).

Then, the calculated control pattern is transmitted to the sleeping mat controller (S170).

Accordingly, the control unit of the sleep pad controller stores the transmitted control pattern in the memory and controls the temperature of the sleep pad (S180).

Meanwhile, after a certain sleep, the user inputs the sleep satisfaction of the sleep mat into the smart device according to the transmitted control mode (S190).

The smart device transmits sleep pad information, sleep satisfaction information, and control mode information of the user to the sleep pad management server at a predetermined period (S200).

The sleep pad management server collects big data on the sleep pad control information according to the information transmitted from the smart device, updates the sleep application, and updates the sleep application to the smart device (S210).

Accordingly, the smart device operates with the sleep pad controller having the updated sleep application (S220).

The foregoing detailed description of the embodiments of the present application has been presented to illustrate the principles and implementations of the present application, and the above description of the embodiments is only provided to help understand the method and the core concept of the present application; meanwhile, for a person skilled in the art, according to the idea of the present application, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation to the present application.

Claims (8)

1. A customized personal sleep mat, comprising: the sleep mat (200) is built in the sleep mat by using a pure metal material PTC with fine characteristics, the temperature of the sleep mat (200) is controlled, and a direct current power supply is provided for the sleep mat (200), and the sleep mat controller (100) transmits the sleep mode of a user using the sleep mat (200) to the intelligent machine (300); the sleep mat controller (100) transmits the sleep pattern of the user to the smart machine (300) installed with the sleep application App, receives and receives the control pattern from the smart machine (300) according to the transmitted sleep pattern, the control pattern analyzed from the sleep application of the smart machine (300), and the personal customized sleep mat characterized by the temperature of the sleep mat controller (200) composed of the above pure metal material fine characteristic material (PTC) when the user sleeps.

2. The personal customized sleep mat according to claim 1, wherein the sleep mat controller (100) is:

a tributary rectifier (110) converting AC power into Direct Current (DC) and an SMPS component (120) outputting the DC converted from the tributary rectifier (110) to a first voltage (28V) and a second voltage (5V), a sensor control part (130) supplying the first voltage Of the SMPS component (120) to the level heater (200), a peripheral temperature detection part (140) detecting ambient temperature by a temperature sensor, a Bluetooth module (150) supporting Bluetooth communication when the intelligent machine (300) and the sleep mattress controller (100) communicate, and an LED control part (160) controlling temperature/Of or operation state Of the sleep mattress (100), an FND control unit (170) controlling 7-grade Of current temperature according to set temperature Of the sleep mattress heater (200) and various set times including temperature Of the sleep mattress controller (100) and temperature setting, if the touch of the user is input, a touch control part (180) and a Bridge rectifier (110) which can execute commands according to the touch, an SMPS component (120), a sensor control part (130), a peripheral temperature detection part (140), and a personal customized sleeping pad which is composed of a Bluetooth module (150), an LED control part (160), an FND control part (170) and a control unit (190) for controlling the touch control part (180).

3. The customized sleeping mat according to claim 2, wherein the sensor control part cuts off the first voltage supply provided from the sleeping mat heater (200) at a predetermined period, measures the current temperature of the sleeping mat heater, evaluates the saturation temperature when a person lies in contact with the mat, or the mat surface temperature when the person is lying on his side or falls out of the sleeping mat, evaluates the sleeping habits and the quality of sleeping, sets the resistance value of the sleeping mat in advance, compares the resistance value of the sleeping mat heater with a predetermined chart or parameter, and customizes the sleeping mat by an individual characterized by analyzing the mat surface temperature.

4. The custom sleep mat according to claim 1, wherein the sleep mat heater (200) is:

an individual customized sleep mat featuring a metal sheet including a Copper sheet, an Fe sheet, or a Ni sheet.

5. The custom personal sleep mat as in claim 4; the thickness of the metal sheet is less than 0.1mm, and the width of the pattern is within 5mm to 10 mm.

6. The custom personal sleep mat as in claim 5; the thickness of the sleep pad is characterized in that polyurethane foam wraps the outer surface of a metal foil of a merchant, the polyurethane foam wraps the outer surface of the metal foil, the polyurethane foam and a waterproof fabric are included, and the personalized sleep pad with the thickness of 1-2mm is formed.

7. The method of using a personal custom sleep mat as defined in any of claims 1 to 6, wherein the method comprises:

downloading the sleep App to an intelligent machine for installation, and executing a stage (S100); a step (S110) of running the application program of the intelligent machine and inputting user information and pad information put on the sleeping mat; a stage (S120) in which the user supplies power to the sleep mat heater at a set temperature through a touch portion of the sleep mat controller; the sleep mat controller measures the sleep mode of the user through the sensor control part and transmits the stage to the smart machine through the Bluetooth module (S130); a collection stage (S140) in which the intelligent machine is in a user sleep mode; a sleep mode analyzing part of the intelligent machine analyzes the sleep mode stage according to the user basic information, the mattress information and the collected sleep mode (S150); a stage (S160) of calculating a control mode of the sleep mat heater according to the analyzed sleep mode; the control mode calculated above, transmitting the phase through the sleep pad controller (S170); the control part of the sleep mat controller is an operation method of the personal customized sleep mat characterized in that the transmitted control mode is stored in the memory and the temperature stage (S180) of the heater of the sleep mat is controlled.

8. The method of claim 7, wherein; after a sleep mat user sleeps for a certain time, according to a transmitted control mode, inputting a step (S190) of a sleep mat sleep satisfaction degree rule intelligent machine and a stage (S200) of transmitting sleep mat information, sleep satisfaction degree information and control mode information of the user to a sleep mat management server by the intelligent machine in a preset period, wherein the sleep mat management server collects big data related to the sleep mat control information according to the information transmitted by the intelligent machine, updates a sleep App, transmits the updated sleep App to the stage (S210) of the intelligent machine, and customizes an application method of the sleep mat by a person with the sleep mat controller action stage (S220) as a characteristic by the intelligent machine.

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