KR20210156630A - Smart tehrmal wear and method for controlling temperature automatically - Google Patents

Abstract

Provided is smart thermal wear for automatically controlling temperature. The smart thermal wear comprises: a power unit which supplies power; one or more planar heating units which are formed in a clothing form, and are heated by receiving the power; a temperature sensor unit which senses temperature of the planar heating units; and a controlling unit which controls power supply through ON-OFF repetition of the power unit based on first temperature information sensed by the temperature sensor unit. At this time, the controlling unit compares the sensed first temperature information with second temperature information set by a user. As a result of comparison, when the first temperature information is lower than the second temperature information, the controlling unit controls supply of the power until the first temperature information is sensed the same as the second temperature information by the temperature sensor unit. When the first temperature information is lower than the second temperature information and a predetermined deviation, the controlling unit controls the power of the power unit to be supplied. When the first temperature information is maintained within the second temperature information and the predetermined deviation, the controlling unit blocks power supply of the power unit. When the power supply of the power unit is stopped during a predetermined time, the controlling unit prevents blocking of the power supply due to a power cut-off circuit included in the power unit by transmitting an activation signal to the power unit immediately after the predetermined time.

Description

SMART TEHRMAL WEAR AND METHOD FOR CONTROLLING TEMPERATURE AUTOMATICALLY

The present invention relates to a smart thermal wear and an automatic temperature control method thereof.

In general, in the cold winter, thick winter clothing was worn to keep the body warm, and the winter clothing was made of fibers such as pure wool in various ways.

As a result, winter clothing has a problem in that it is not easy to wear for a wearer in a situation requiring high activity or for a person who has such a personality because it is inevitably manufactured as clothing having a significant sense of weight.

For example, when worn by people who have jobs that require long hours of work outdoors in the cold, such as police officers, military personnel, and environmental sanitation workers, or when worn by people who enjoy outdoor sports in winter, winter clothing that is heavy and bulky and has low activity is suitable It was not enough to provide sufficient warmth.

Looking at the prior art for solving the above problems, an electric heating wire is sewn and inserted inside a vest or belly band worn in winter, and it can be worn warmly through the heat of the heating wire, thereby protecting the body from the cold in winter, thereby improving blood circulation and warming effect. A heating vest that can obtain

In this type, the temperature is controlled in 3 or 5 steps in steps of 5 to 7°C, and when the temperature is 45°C or higher, the temperature is not adjusted in 1°C increments. It is necessary to develop thermal wearables that can control the temperature.

Public Utility Model No. 2007-0001138 (2007.10.29)

The present invention for solving the problems as described above allows the user to set the optimum temperature in units of 1°C, and controls the temperature through power supply so as not to deviate by ±1°C deviation of the preset temperature, but the set temperature It is intended to provide a smart thermal wearable clothing that can maintain the set temperature by repeatedly turning the power supply ON-OFF upon arrival and an automatic temperature control method thereof.

In addition, in order to prevent being blocked by the power cut-off circuit of the built-in power supply in the battery pack by the power cut-off circuit when the power supply is turned off, the power cut-off circuit sends a signal within 15 seconds to activate the power of the battery pack and activate the battery during operation. By preventing the pack power supply from being cut off, unnecessary power consumption can be reduced. The battery pack has a longer discharge time, so you can use smart warm wear for a longer period of time. An object of the present invention is to provide a smart thermal wearable object and an automatic temperature control method without the inconvenience of setting the optimum temperature each time it is used by operating it at the stored temperature when reused.

The problems to be solved by the present invention are not limited to the problems mentioned above, and other problems not mentioned will be clearly understood by those skilled in the art from the following description.

Smart warm wearable wearables capable of automatic temperature control according to the first aspect of the present invention for solving the above problems are made in the form of a power supply unit, clothes, and one or more planar heating units that receive power and generate heat, the Control unit for controlling power supply through repeating ON-OFF of the power unit based on the first temperature information sensed by the temperature sensor unit and the temperature sensor unit for sensing the temperature of the planar heating unit and the second temperature information set by the user includes At this time, the control unit compares the sensed first temperature information with the second temperature information set by the user, and when the first temperature information is lower than the second temperature information as a result of the comparison, the temperature sensor unit generates the second temperature information. Control that the power is supplied until the first temperature information is sensed to be the same as the second temperature information, but when the first temperature information is lower than the second temperature information and the preset deviation, the power supply of the power supply is supplied control so that the first temperature information is within a preset deviation from the second temperature information, but control to stop the power supply of the power supply, when the interruption of the power supply to the power supply continues for a predetermined time , to prevent the power supply from being cut off by the power cut-off circuit included in the power supply unit by transmitting an activation signal to the power supply unit immediately after the predetermined time.

In some embodiments of the present invention, the second temperature information set by the user includes the temperature information set by the user in the switched-on state of the smart warm wearing wearables and the temperature information set by the user before the smart thermal wearables are switched on may be any one of

In some embodiments of the present invention, the control unit, when detecting an abnormal state of the temperature sensor unit, when detecting an abnormal state of the power supply line of the planar heating unit, and the sensed first temperature information is the second temperature information If it corresponds to at least one of the cases exceeding the power supply unit can be controlled to stop the power supply to the planar heating unit.

In addition, the automatic temperature control method in smart heated wearables according to the second aspect of the present invention, as the switch of the smart warm wearables is turned on, sensing the temperature of at least one flat heating part made of clothes; comparing the sensed first temperature information with second temperature information set by a user; And based on the comparison result comprising the step of controlling the power supply to the planar heating unit through the ON-OFF repetition of the power supply unit. At this time, the step of controlling the power supply to the planar heating unit based on the comparison result is, when the comparison result the first temperature information is lower than the second temperature information, the first temperature information is the second temperature information and Control so that power is supplied to the planar heating unit until the same is sensed, but when the first temperature information is lower than the second temperature information and the preset deviation, the power is controlled to be supplied, the first temperature When the information is maintained within a preset deviation from the second temperature information, the power supply is controlled to be stopped, and when the interruption of the power supply continues for a predetermined time, an activation signal is applied to the power supply unit immediately after the predetermined time. It is possible to prevent the power supply from being cut off by the power cut-off circuit included in the power supply unit.

In some embodiments of the present invention, the second temperature information set by the user includes the temperature information set by the user in the switched-on state of the smart warm wearing wearables and the temperature information set by the user before the smart thermal wearables are switched on may be any one of

Some embodiments of the present invention, when detecting an abnormal state of the temperature sensor unit, when detecting an abnormal state of the power supply line of the planar heating unit, and when the sensed first temperature information exceeds the second temperature information determining whether it corresponds to at least one of; And based on the determination result may further comprise the step of controlling the power supply to the planar heating unit of the power supply to be stopped.

In addition to this, another method for implementing the present invention, another system, and a computer-readable recording medium for recording a computer program for executing the method may be further provided.

According to the present invention as described above, when power is supplied to the planar heating element, when the set temperature is reached, the battery power is repeatedly turned ON-OFF and maintained within the set temperature ±1℃, and when OFF for more than 15 seconds, the power built into the battery pack In order to prevent the power supply from being cut off by the cut-off circuit, the power cut-off protection circuit sends a signal under the control of the control unit to activate the power of the battery pack, thereby preventing the power cut-off of the battery pack during operation and reducing unnecessary power consumption. As a result, the discharge time of the battery pack becomes longer, allowing you to use smart heated wearables for a longer period of time.

In addition, there is an advantage in that there is no inconvenience of setting the optimum temperature each time the user is used by memorizing the optimum temperature set during previous use and operating at the stored temperature during the next reuse.

In addition, by applying a planar heating element capable of uniform temperature transfer, it is possible to solve the problem caused by the existing linear heating element.

Effects of the present invention are not limited to the effects mentioned above, and other effects not mentioned will be clearly understood by those skilled in the art from the following description.

1 is a block diagram of a smart heated wearable according to an embodiment of the present invention.
2 is a view for explaining an implementation example of a smart heated wearables.
3 is a flowchart of an automatic temperature control method according to an embodiment of the present invention.

Advantages and features of the present invention and methods of achieving them will become apparent with reference to the embodiments described below in detail in conjunction with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but may be implemented in various different forms, and only the present embodiments allow the disclosure of the present invention to be complete, and those of ordinary skill in the art to which the present invention pertains. It is provided to fully understand the scope of the present invention to those skilled in the art, and the present invention is only defined by the scope of the claims.

The terminology used herein is for the purpose of describing the embodiments and is not intended to limit the present invention. In this specification, the singular also includes the plural unless specifically stated otherwise in the phrase. As used herein, “comprises” and/or “comprising” does not exclude the presence or addition of one or more other components in addition to the stated components. Like reference numerals refer to like elements throughout, and "and/or" includes each and every combination of one or more of the recited elements. Although "first", "second", etc. are used to describe various elements, these elements are not limited by these terms, of course. These terms are only used to distinguish one component from another. Accordingly, it goes without saying that the first component mentioned below may be the second component within the spirit of the present invention.

Unless otherwise defined, all terms (including technical and scientific terms) used herein will have the meaning commonly understood by those of ordinary skill in the art to which this invention belongs. In addition, terms defined in a commonly used dictionary are not to be interpreted ideally or excessively unless specifically defined explicitly.

The present invention relates to a smart heating wear 100 and an automatic temperature control method thereof.

There is no separate temperature sensor in the conventional technology for cold protection applied to the waistband or vest, so the temperature is controlled through PWM (Pulse Width Modulation) did At this time, in the prior art, the temperature was controlled in a manner of up and down in units of 5 to 7 degrees with 3 or 5 steps such as strong, medium, and weak power, so it was difficult to control the temperature that the user felt most comfortable, There were many cases of dissatisfaction with the temperature change of the bellyband depending on the ambient temperature even when moving after wearing a bellyband or vest.

In addition, in the case of the prior art, there is an inconvenience in that the user has to set the suitable temperature every time the bellyband or vest is used, and there is the inconvenience of having to set the temperature again in order to find the suitable temperature when the ambient temperature changes.

In particular, when using a waistband or vest, the power consumption of the battery was severe because the power of the battery had to be continuously supplied to the heating plate in the PWM method with the output set by the user. In addition, even if the power of the heating plate is turned off, if there is no load on the battery for a certain period of time, the battery could not be turned off even if unnecessary power was consumed because the external power supply was cut off due to the protection circuit built into the battery.

In contrast, the smart heated wearable object 100 and the automatic temperature control method thereof according to an embodiment of the present invention control the temperature through power supply so as not to deviate from the temperature set by the user as much as a preset deviation, but supply power. It is possible to reduce charging power consumption by preventing the interruption of the power supply to the power supply unit 110 by the protection circuit.

Hereinafter, with reference to FIGS. 1 and 2 , a smart thermal wearable device 100 capable of automatic temperature control according to an embodiment of the present invention will be described.

1 is a block diagram of a smart heated wearable 100 according to an embodiment of the present invention. 2 is a view for explaining an example of implementation of the smart heating wear 100.

Smart heated wearables 100 according to an embodiment of the present invention include a power supply unit 110 , a surface heating unit 120 , a temperature sensor unit 130 , and a control unit 140 .

The power supply unit 110 supplies power to the planar heating unit 120 under the control of the control unit 140 .

The planar heating unit 120 is made in the form of clothes and receives power to generate heat. That is, the planar heating unit 120 may receive power through repeated ON-OFF of the battery power of the power supply unit 110 to maintain a preset temperature of deviation (eg, within ±1 ℃).

In an embodiment of the present invention, the planar heating unit 120 is composed of at least one, and according to the embodiment, one garment is composed of one planar heating unit, or a plurality of planar heating units are partitioned from each other and configured in the form of clothes. It may be configured in various forms such as

The temperature sensor unit 130 senses the temperature of the planar heating unit 120 .

In the case of thermal wear according to the prior art, that is, in the case of a bellyband or vest, a linear heating element was used in most cases. In addition, the vicinity of the heating wire is relatively high temperature, so users often get thermal burns when they come into contact with the skin.

On the contrary, an embodiment of the present invention has the advantage of being able to solve the problem in the linear heating element with uniform temperature transfer by using the planar heating unit 120 .

In one embodiment, when the planar heating unit 120 is configured as one, the temperature sensor unit 130 may be configured as a single temperature sensor. is attached, or one temperature sensor is attached to each predetermined group, and the like.

The control unit 140 controls the supply of power to the power supply unit 110 based on the first temperature information sensed by the temperature sensor unit 130 and the second temperature information set by the user.

In this case, the user can set the desired temperature through a separately provided control button. The user can adjust the second temperature information in units of 1°C through the control button, and the temperature control width is variable according to the user's setting. The form of the control button, such as a dial type, a touch type, a button type, can be variously implemented according to the embodiment.

In addition, the first temperature information sensed by the temperature sensor unit 130 and the second temperature information set by the user are output through a separately provided display unit.

Specifically, the control unit 140 compares the first temperature information sensed by the temperature sensor unit 130 with the second temperature information set by the user, and turns ON-OFF the battery of the power supply unit 110 based on the comparison result. is repeatedly controlled so that the first and second temperature information is maintained within a preset deviation (eg, within ±1°C).

In an embodiment, when the first temperature information is lower than the second temperature information as a result of the comparison, the control unit 140 supplies power until the first temperature information is sensed to be the same as the second temperature information by the temperature sensor unit 130 . control to be supplied.

At this time, when the first temperature information is lower than a preset deviation (eg, within ±1° C.) from the second temperature information, the controller 140 controls the power supply to the power supply unit 110 to be supplied.

As an example, the control unit 140, when the first temperature information sensed by the temperature sensor unit 130 is lower than the second temperature information set by the user by 1 degree, the power of the power supply unit 110 is the planar heating unit 120 control to be supplied.

As described above, in one embodiment of the present invention, by repeatedly controlling the power supply and cut-off of the power supply unit 110 with a preset deviation, the user wearing the smart thermal wearable object 100 can feel that the same temperature is continuously maintained. have.

In addition, when the first temperature information sensed by the temperature sensor unit 130 maintains a preset deviation from the second temperature information set by the user, the control unit 140 controls the power supply to the power supply unit 110 to be stopped. .

At this time, when the interruption of the power supply of the power supply unit 110 continues for a predetermined time, the control unit 140 transmits an activation signal to the power supply unit 110 immediately after a predetermined time (for example, when OFF for 15 seconds or longer) to the power supply unit ( 110) to prevent the power supply from being cut off by the power cut-off circuit built into the battery. Through this, by preventing the power supply of the battery pack of the power supply unit 110 from being cut off to prevent unnecessary power consumption, the discharge time of the battery pack becomes longer, so the advantage of being able to use the smart heating wear 100 for a longer period of time There is this.

That is, in the case of a battery according to the prior art, if a load is not applied to the battery within 15 seconds to prevent unnecessary discharge, the power supply is automatically cut off. In order to re-supply power, manually turn the power ON switch attached to the battery There was a hassle to press with .

In order to solve this inconvenience, according to an embodiment of the present invention, the power cut-off protection circuit transmits an activation signal from the power supply unit 110 to the battery at regular intervals under the control of the controller 140 to increase the battery usage time. It has the advantage of being able to do it.

For example, when the first temperature information is continuously maintained within a deviation of 1 degree from the second temperature information, the control unit 140 stops the power supply to the planar heating unit 120 of the power supply unit 110 . At this time, if the power supply interruption of the power supply unit 110 continues for 15 seconds, the power cut-off circuit of the power supply unit 110 cuts off the power supply and the power supply unit 110 is switched off. In this case, the power supply unit 110 is switched off again. In order to turn it on, it must consume the charged power.

To prevent this, an embodiment of the present invention transmits an activation signal to the power supply 110 immediately after 15 seconds (eg, by controlling a constant current to be supplied for 1 second), included in the power supply 110 It is possible to prevent the power supply from being cut off by the designated power cut-off circuit.

Accordingly, the present invention can prevent unnecessary consumption of the power charged in the power supply unit 110 , and thus the heating time of the smart heated wearable object 100 can be further extended.

In one embodiment, the present invention provides temperature information set by the user when the switch of the smart heated wearable 100 is turned on and the temperature information set by the user before the switch of the smart heated wearable 100 is turned on. Any one of them may be used as the second temperature information.

By storing and using the previously set temperature in the memory, there is an advantage in that it is possible to reduce the hassle of the user who has to input the set temperature every time the smart warm wearable object 100 is used.

In one embodiment, when the present invention detects whether there is an abnormality in the smart warm wearable object 100, it is possible to display it on the display unit and take a corresponding action.

That is, when the controller 140 detects an abnormality of the temperature sensor unit 130, when detecting an abnormality in the power supply line of the planar heating unit 120, the sensed first temperature information exceeds the second temperature information Each case can be detected. When the control unit 140 detects at least one of these cases, by controlling the power supply to the surface heating unit 120 of the power supply unit 110 to be stopped, so that the user can more safely use the smart heating wear 100. can

In addition, according to an embodiment of the present invention, the temperature sensor unit 130 may operate to further sense the external temperature. In addition, a preset deviation of the above-described first and second temperature information may be varied and operated through sensing of the external temperature.

As an embodiment, the fluctuation range of the preset deviation of the first and second temperature information may be adjusted to be proportional to the external temperature. For example, when the external temperature is higher than the set reference temperature and thus relatively cold, the preset deviation may be set to 2 degrees, thereby reducing the consumption of charging power. Conversely, when the external temperature is lower than the set reference temperature and is relatively cold, the preset deviation is set more sensitively by 0.5 degrees, so that the user feels less the temperature change of the smart heated wearable 100, so that it is warmer. can make you feel it.

Together or separately, the temperature sensor unit 130 may measure the user's body temperature, and may operate by varying a preset deviation of the first and second temperature information based on this.

For example, when the user's body temperature measured immediately after the smart warm wear 100 is operated is changed to set the preset deviation high from 1 degree to 2 degrees, the power supply to the surface heating unit 120 is rougher. Conversely, when it is lowered, the preset deviation is changed to be set lower from 1 degree to 0.5 degree, so that the user's degree of feeling the cold can be made less sensitive.

An embodiment of the present invention reduces power consumption by using such a variable deviation, and at the same time allows an absolute cold situation according to the external environment and a relatively cold situation felt by each user to be considered separately or at the same time, so that more sensitive temperature control is possible It has the advantage of being able to do it.

Meanwhile, the control unit 140 may include a communication module, a memory, and a processor.

The communication module transmits/receives data for controlling the power supply unit 110 and data for detecting abnormality, and receives the sensing data of the temperature sensor unit 130 in real time or at preset intervals. Such a communication module may include both a wired communication module and a wireless communication module.

A program for controlling the supply of power to the face heating unit 120 based on the sensed temperature information and determining whether there is an abnormality in the smart heating wear 100 is stored in the memory, and the processor executes the program stored in the memory . In this case, the memory refers to a non-volatile storage device and a volatile storage device that continuously maintain stored information even when power is not supplied.

Hereinafter, with reference to FIG. 3 , an automatic temperature control method in the smart heated wearable 100 according to an embodiment of the present invention will be described.

3 is a flowchart of an automatic temperature control method according to an embodiment of the present invention.

First, as the switch of the smart heating wear 100 is turned on by the user, the temperature of at least one flat heating unit 120 made in the form of clothes is sensed (S110).

Next, the sensed first temperature information and the second temperature information set by the user is compared (S120), and based on the comparison result, the power supply to the planar heating unit 120 of the power supply is controlled.

At this time, when the comparison result is that the first temperature information is lower than the second temperature information (S120-N), the first temperature information is controlled to be supplied to the planar heating unit 120 until the same as the second temperature information is sensed. (S132), when the first temperature information is lower than the second temperature information and a preset deviation, power is controlled to be supplied (S131).

Contrary to this, when the first temperature information and the second temperature information are maintained within a preset deviation (S120-Y), the power supply is controlled to be stopped (S133), but when the interruption of the power supply continues for a predetermined time (S120-Y) S134), the activation signal is transmitted to the power supply unit 110 immediately after a predetermined time to prevent blocking of the power supply by the power cut-off circuit included in the power supply unit 110 (S135).

Meanwhile, in the above description, steps S110 to S135 may be further divided into additional steps or combined into fewer steps according to an embodiment of the present invention. In addition, some steps may be omitted if necessary, and the order between steps may be changed. In addition, the contents described in FIGS. 1 to 2 may be applied to the automatic temperature control method of FIG. 3 even if other contents are omitted.

The automatic temperature control method according to an embodiment of the present invention described above may be implemented as a program (or application) to be executed in combination with a computer, which is hardware, and stored in a medium.

The above-mentioned program, in order for the computer to read the program and execute the methods implemented as a program, C, C++, JAVA, Ruby, which the processor (CPU) of the computer can read through the device interface of the computer; It may include code coded in a computer language such as machine language. Such code may include functional code related to a function defining functions necessary for executing the methods, etc., and includes an execution procedure related control code necessary for the processor of the computer to execute the functions according to a predetermined procedure. can do. In addition, this code may further include additional information necessary for the processor of the computer to execute the functions or code related to memory reference for which location (address address) in the internal or external memory of the computer should be referenced. have. In addition, when the processor of the computer needs to communicate with any other computer or server located remotely in order to execute the functions, the code uses the communication module of the computer to determine how to communicate with any other computer or server remotely. It may further include a communication-related code for whether to communicate and what information or media to transmit and receive during communication.

The storage medium is not a medium that stores data for a short moment, such as a register, a cache, a memory, etc., but a medium that stores data semi-permanently and can be read by a device. Specifically, examples of the storage medium include, but are not limited to, ROM, RAM, CD-ROM, magnetic tape, floppy disk, and an optical data storage device. That is, the program may be stored in various recording media on various servers accessible by the computer or in various recording media on the computer of the user. In addition, the medium may be distributed in a computer system connected to a network, and a computer-readable code may be stored in a distributed manner.

The above description of the present invention is for illustration, and those of ordinary skill in the art to which the present invention pertains can understand that it can be easily modified into other specific forms without changing the technical spirit or essential features of the present invention. will be. Therefore, it should be understood that the embodiments described above are illustrative in all respects and not restrictive. For example, each component described as a single type may be implemented in a dispersed form, and likewise components described as distributed may be implemented in a combined form.

The scope of the present invention is indicated by the following claims rather than the above detailed description, and all changes or modifications derived from the meaning and scope of the claims and their equivalent concepts should be interpreted as being included in the scope of the present invention. do.

100: smart heated wear
110: power unit
120: planar heating part
130: temperature sensor unit
140: control unit

Claims (6)

In a smart heated wearable with automatic temperature control,
power supply unit,
One or more planar heating units made in the form of clothes and receiving the power to generate heat,
a temperature sensor unit for sensing the temperature of the planar heating unit; and
A control unit for controlling power supply through repeating ON-OFF of the power unit based on the first temperature information sensed by the temperature sensor unit and the second temperature information set by the user,
The control unit compares the sensed first temperature information with the second temperature information set by the user, and when the first temperature information is lower than the second temperature information as a result of the comparison, the first temperature information by the temperature sensor unit Control to supply the power until the information is sensed to be the same as the second temperature information, and control so that power is supplied to the power supply unit when the first temperature information is lower than the second temperature information and the preset deviation do,
When the first temperature information is within a preset deviation from the second temperature information, control to stop the power supply to the power supply unit, but if the interruption of the power supply to the power supply unit continues for a predetermined time, the predetermined Transmitting an activation signal to the power supply unit immediately after time to prevent the power supply cut-off by the power cut-off circuit included in the power supply unit,
Smart heated wearable with automatic temperature control. According to claim 1,
The second temperature information set by the user,
Which one of the temperature information set by the user in the switched-on state of the smart heated wearables and the temperature information set by the user before the smart heated wearings are switched on,
Smart heated wearable with automatic temperature control. According to claim 1,
The control unit, when detecting an abnormal state of the temperature sensor unit, when detecting an abnormal state of the power supply line of the planar heating unit, and when the sensed first temperature information exceeds the second temperature information In at least one If applicable, the control so that the power supply to the planar heating part of the power supply is stopped,
Smart heated wearable with automatic temperature control. In the automatic temperature control method in smart heating wear,
Sensing the temperature of at least one surface heating part made of a clothing form as the switch of the smart heating wear is turned on;
comparing the sensed first temperature information with second temperature information set by a user; and
Including the step of controlling the power supply to the planar heating unit through the ON-OFF repetition of the power unit based on the comparison result,
Controlling the power supply to the planar heating unit based on the comparison result,
When the first temperature information is lower than the second temperature information as a result of the comparison, control so that power is supplied to the planar heating unit until the first temperature information is sensed to be the same as the second temperature information, the first When the temperature information is lower than the second temperature information and the preset deviation, control so that the power is supplied,
When the first temperature information is within a preset deviation from the second temperature information, the power supply is controlled to be stopped, and when the interruption of the power supply continues for a predetermined time, the power supply unit immediately after the predetermined time to prevent the power supply cutoff by the power cutoff circuit included in the power supply unit by transmitting an activation signal to the
How to automatically adjust the temperature in smart heated wearables. 5. The method of claim 4,
The second temperature information set by the user,
Which one of the temperature information set by the user in the switched-on state of the smart heated wearables and the temperature information set by the user before the smart heated wearings are switched on,
How to automatically adjust the temperature in smart heated wearables. 5. The method of claim 4,
When detecting an abnormal state of the temperature sensor unit, when detecting an abnormal state of the power supply line of the planar heating unit, and whether the sensed first temperature information corresponds to at least one of the cases exceeding the second temperature information judging; and
Further comprising the step of controlling the supply of power to the planar heating unit of the power supply unit to be stopped based on the determination result,
How to automatically adjust the temperature in smart heated wearables.

Images