KR102546591B1 - Custom adjustable smart clothing - Google Patents

Abstract

A custom adjustable smart garment is disclosed. The custom-adjustable smart clothing of the present invention includes a temperature sensor for sensing the temperature of the air layer between the human skin surface and the innermost layer of clothing; air pockets divided into a plurality of parts according to the wearer's body part and filled with air; An air control unit for injecting or discharging air into the air pocket; and a controller controlling the air volume in the air pocket by controlling the air controller according to the temperature.

Description

Custom adjustable smart clothing {CUSTOM ADJUSTABLE SMART CLOTHING}

The present invention relates to custom-adjustable smart clothing, and more particularly, to secure thermal comfort in clothing by selectively adjusting the amount of air for each part of the clothing according to the climate inside the clothing of the wearer. It's about clothing.

In order to improve the warming effect in winter, various types of thermal clothing using heat reflection or heating action of a heating element are appearing.

Thermal clothing using heat reflection action enhances the heat preservation effect by applying a material having excellent heat reflection effect such as aluminum on the surface of the inner skin to reflect the heat emitted from the wearer's body back toward the wearer.

In addition, in the case of thermal clothing using a heating element, a heating element is mounted on the inner skin so that the inside of the clothing can be heated by the heat of the heating element.

The background art of the present invention is disclosed in Korean Patent Registration No. 10-1762576 (July 24, 2017), 'light-heating down with excellent heat retention, manufacturing method thereof, and light-heating down clothing with excellent heat retention including the same'.

As described above, conventional thermal clothing provides some of the warming effect to the user, but is insufficient to provide a sufficient warming effect to the user, and also has a problem of not considering the user's wearing comfort or comfort.

The present invention has been devised to improve the above problems, and an object according to an aspect of the present invention is to selectively adjust the amount of air for each part of the clothing according to the climate inside the clothing of the wearer to secure thermal comfort in the clothing. It is to provide customized and adjustable smart clothing that can be customized.

A custom-adjustable smart clothing according to an aspect of the present invention includes a temperature sensor for sensing the temperature of an air layer formed between a human skin surface and an innermost layer of clothing; air pockets divided into a plurality of parts according to the body part of the wearer and filled with air; an air control unit for injecting or discharging air into the air pocket; and a control unit controlling the air control unit according to the temperature to adjust the amount of air inside the air pocket.

The air control unit of the present invention includes an air pump supplying air to the air pocket; an air supply pipe supplying air from the air pump to the air pocket; an air discharge pipe for discharging air from the air pocket; and an air amount controller for adjusting the amount of air supplied to the air pocket through the air supply pipe and the amount of air discharged from the air pocket.

The control unit of the present invention is characterized in that the air amount of the air pocket is independently adjusted for each body part of the wearer according to the temperature.

The air pocket of the present invention is characterized in that it is divided into an outer pocket and an inner pocket that are laminated.

The control unit of the present invention is characterized in that it preferentially adjusts the amount of air in any one of the outer pocket and the inner pocket according to the temperature.

The air control unit of the present invention may further include a blocking unit for blocking air injected into the air pocket through the air supply pipe.

The blocking part of the present invention is characterized in that it is installed in the air supply pipe to open and close the air supply pipe according to the wearer's manipulation.

The temperature sensing unit of the present invention is characterized in that it includes a plurality of temperature sensing units provided for each part of the wearer's body.

The controller of the present invention may inject air into the air pocket by controlling the air controller when the temperature is equal to or less than a predetermined set temperature.

The control unit of the present invention may supply different amounts of air for each air pocket by controlling the air amount controller according to a temperature difference between the set temperature and the temperature and the volume of the air pocket.

The control unit of the present invention is characterized in that it transmits the temperature to the smart terminal for each body part of the wearer.

The control unit of the present invention is characterized in that when an air amount control command for each of the air pockets is input from a smart terminal, the control unit controls the air amount according to the air amount control command to adjust the air amount of each of the air pockets.

Custom-adjustable smart clothing according to one aspect of the present invention can secure thermal comfort within the clothing by automatically adjusting the amount of air for each part of the clothing according to the climate inside the clothing.

According to another aspect of the present invention, the custom-adjustable smart clothing transmits the climate in the clothing to the wearer's smart terminal in real time so that the wearer can check it, and based on this, the wearer can control the amount of air in the air pocket using the smart terminal. It is possible to improve the wearer's satisfaction with clothes by allowing

1 is a block diagram of a custom-adjustable smart clothing according to an embodiment of the present invention.
2 is a front view of a custom-adjustable smart garment according to an embodiment of the present invention.
3 is a diagram showing layers for each part according to an embodiment of the present invention.
4 is a flowchart illustrating an example of an air conditioning process for custom-adjustable smart clothing according to an embodiment of the present invention.
5 is a flowchart illustrating another example of an air conditioning process for custom-adjustable smart clothes according to an embodiment of the present invention.

Hereinafter, a custom-adjustable smart clothing according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings. In this process, the thickness of lines or the size of components shown in the drawings may be exaggerated for clarity and convenience of description. In addition, terms to be described later are terms defined in consideration of functions in the present invention, which may vary according to the intention or custom of a user or operator. Therefore, definitions of these terms will have to be made based on the content throughout this specification.

1 is a block configuration diagram of custom-adjustable smart clothing according to an embodiment of the present invention, FIG. 2 is a front view of custom-adjustable smart clothing according to an embodiment of the present invention, and FIG. 3 is an embodiment of the present invention. It is a diagram showing layers for each part according to the example.

1 to 3, the custom-adjustable smart clothing according to an embodiment of the present invention includes a temperature sensor 10, an air pocket 51, an air controller 20, and a controller 30. .

The temperature sensor 10 is installed to correspond to a body part in the clothing 50 and senses the temperature inside the clothing, that is, the temperature of the air layer formed between the human skin surface and the innermost clothing. The temperature sensor 10 may be fixedly attached to the clothing 50 .

Clothing 50 is not limited to any one of top and bottom.

Body parts may include chest, abdomen, back, thigh, neck, arm, leg, etc., but are not limited thereto.

The temperature detected by the temperature sensor 10 is information for analyzing the thermal environment of the clothing 50, and is reference information for determining whether to inject air into the air pocket 51 corresponding to the corresponding body part.

The air pocket 51 is formed in the wearer's clothing 50 and is filled with air. As the air layer of the air pocket 51 blocks the movement of heat, the wearer can feel comfortable.

A plurality of air pockets 51 may be provided at positions corresponding to parts of the wearer's body. The air pocket 51 may be provided at a location corresponding to a part of the wearer's body, that is, the chest, abdomen, back, thigh, neck, arm, or leg. The air pockets 51 may be formed in various positions and shapes in consideration of a body part to keep warm or activity of the wearer.

The air pocket 51 includes an outer pocket 511 and an inner pocket 512 each of which is filled with air. The outer pocket 511 and the inner pocket 512 are laminated on the outside and inside, respectively.

The wearer's warmth can be improved as an air layer is formed between the clothing 50 and the surface of the wearer's body and ventilation of the air layer is relatively low. Thus, the inner pocket 512 described above can further improve the wearer's warmth.

The air control unit 20 is installed on the clothing 50 and controls the amount of air inside the air pocket 51 by injecting or discharging air into the air pocket 51 .

For reference, in FIG. 2 , the air control unit 20 is shown as being provided separately from the clothing 50 . In addition, the air controller 20 may be installed on the clothes 50, but in the case of the air pump 21 described later, it is provided separately from the clothes 50 and can be installed and released as needed. This is to improve the wearability of the clothing 50 . The installation position and method of the air pump 21 are not particularly limited.

The air control unit 20 includes an air pump 21, an air supply pipe 23, an air discharge pipe 24, an air amount control unit 22, and a blocking unit 25.

The air pump 21 supplies air to the air pockets 51.

As described above, the air pump 21 may be installed on the clothing 50 or may be provided separately from the clothing 50 and may be coupled to the air amount control unit 22 to inject air.

The air supply pipe 23 supplies air injected from the air pump 21 to each of the air pockets 51 . The air supply pipe 23 is formed in two rows, one of which is connected to the outer pocket 511 of the air pocket 51 and the other one connected to the inner pocket 512 of the air pocket 51. As the air supply pipes 23 are formed in two rows, the air injected from the air pump 21 can be independently supplied to the outer pocket 511 and the inner pocket 512 , respectively.

The air discharge pipe 24 discharges air filled in the air pocket 51 . The air discharge pipe 24 is formed in two rows, one of which may be connected to the outer pocket 511 of the air pocket 51 and the other to the inner pocket 512 of the air pocket 51. In this way, since the air discharge pipe 24 is formed in two rows, air in each of the outer pocket 511 and the inner pocket 512 can be discharged independently of each other.

The air amount controller 22 controls the amount of air supplied to the air pocket 51 through the air supply pipe 23 and the amount of air discharged from the air pocket 51 .

That is, when injecting air into the air pockets 51 through the air pump 21, the air amount control unit 22 distributes the air of the air pump 21 to the air pockets through each air supply pipe 23 ( 51) is supplied. In this case, the air amount controller 22 independently controls the air supplied to the air supply pipe 23 connected to the outer pocket 511 and the air supplied to the air supply pipe 23 connected to the inner pocket 512, respectively. Air may be separately supplied to the outer pocket 511 and the inner pocket 512 .

In addition, when the air in the air pocket 51 is discharged, the air amount control unit 22 discharges the air in the air pocket 51 to the outside. In this case, the air amount controller 22 independently controls the air discharged through the air discharge pipe 24 connected to the outer pocket 511 and the air discharged through the air discharge pipe 24 connected to the inner pocket 512, respectively. Air in the outer pocket 511 and the inner pocket 512 may be discharged separately.

The blocking part 25 is installed in the air supply pipe 23 to block air injected into the air pocket through the air supply pipe 23 . The blocking portion 25 is exposed to the outside of the clothing 50 and can block air in a toggle manner according to the wearer's manipulation. The blocking unit 25 can block the air supply pipe 23 based on a mechanical structure, and this method is not particularly limited. Since the upper end of the blocking part 25 is exposed to the outside, the upper part may be formed similarly to a normal button in consideration of design elements of the clothing 10 .

When the blocking part 25 is pressed once by the wearer, it closes the air supply pipe 23 to block internal air, and then, when pressurized again, opens the air supply pipe 23 so that air inside can be injected.

In general, in the case of clothing 50 having air pockets 51, the activity of the wearer may decrease. Accordingly, the blocking unit 25 reduces the amount of air in the air pocket 51 by preventing air from being injected into the air pocket 51, thereby reducing the discomfort experienced by the air pocket 51 during work or activity of the wearer. can reduce

The controller 30 controls the air controller 20 according to the temperature sensed by the temperature sensor 10 to adjust the amount of air inside the air pocket 51 .

That is, the controller 30 detects the temperature of the air layer formed between the human skin surface corresponding to each body part and the innermost layer of clothing through each of the temperature detectors 10 .

The control unit 30 compares each temperature detected by each temperature sensor 10 with a preset set temperature. If at least one of these temperatures is less than the set temperature, the controller 30 injects air of a predetermined amount into the air pocket 51 corresponding to the corresponding body part.

The amount of air injected into the air pocket 51 may be injected differently depending on the temperature difference between the set temperature and the temperature, and the volume of the air pocket 51 .

That is, the controller 30 may inject air through the air amount control unit 22 whenever the temperature sensor 10 senses the temperature of the air layer formed between the human skin surface and the innermost layer of clothing. At this time, the amount of injected air may be different for each air pocket 51 as described above.

The set temperature is the minimum temperature of the air layer formed between the human skin surface and the innermost layer of clothing at which the wearer can feel comfortable. Clothing 50 should provide a comfortable clothing climate to the wearer. Generally, clothing should provide comfort to the wearer through warmth, heat dissipation, ventilation, and the like.

The temperature of the air layer formed between the human skin surface and the innermost layer of clothing, which allows the wearer to feel comfortable, is 32±1°C. Accordingly, the set temperature may be set to 31°C.

Meanwhile, the set temperature may be different for each wearer or for each body part. Accordingly, the set temperature may be variously set by the wearer for each wearer or for each body part.

Therefore, the control unit 30 injects air into the air pocket 51 corresponding to the corresponding body part when the temperature of the air layer formed between the human skin surface detected by the temperature sensor 10 and the innermost layer of clothing is less than 31 ° C. do.

That is, when the temperature of the air layer formed between the human skin surface and the innermost layer of clothing detected by the temperature sensor 10 is less than 31 ° C, the controller 30 detects an air pocket 51 corresponding to the corresponding body part. . Subsequently, the controller 30 operates the air pump 21 and controls the air amount controller 22 to inject air into the corresponding air pocket 51 . At this time, the controller 30 selectively injects air into any one of the outer pocket 511 and the inner pocket 512 of the corresponding air pocket 51, or simultaneously into the outer pocket 511 and the inner pocket 512 at the same time. air can be injected.

In this case, when the air supply pipe 23 for injecting air into the corresponding air pocket 51 is closed by the blocking unit 25, air is not injected into the corresponding air pocket 51.

On the other hand, the control unit 30 compares the temperature of the air layer formed between the human skin surface and the innermost layer of clothing by each temperature sensor 10 with a preset limit temperature. When the temperature exceeds the limit temperature, the controller 30 controls the air amount controller 22 to discharge air from the air pocket 51 corresponding to the corresponding body part.

The limiting temperature is the maximum temperature of the air layer formed between the human skin surface and the innermost layer of clothing at which the wearer can feel comfortable. As described above, the temperature of the air layer formed between the human skin surface and the innermost layer of clothing, which allows the wearer to feel comfortable, is 32±1°C. Accordingly, the limit temperature may be set to 33°C. Therefore, the control unit 30, when the temperature of the air layer formed between the skin surface of the human body and the innermost layer of clothing detected by the temperature sensor 10 exceeds 33 ° C, releases air from the air pocket 51 corresponding to the corresponding body part. discharge

That is, when the temperature of the air layer formed between the human skin surface detected by the temperature sensor 10 and the innermost layer of clothing exceeds 33 ° C, the controller 30 detects an air pocket 51 corresponding to the corresponding body part do.

Next, the control unit 30 controls the air amount control unit 22 to discharge air into the corresponding air pocket 51 . At this time, the controller 30 selectively discharges air to any one of the outer pocket 511 and the inner pocket 512 of the air pocket 51, or releases air from the outer pocket 511 and the inner pocket 512. can be released at the same time.

Here, in the case of selectively discharging air to any one of the outer pocket 511 and the inner pocket 512 of the air pocket 51, the controller 30 first discharges air from the inner pocket 512 and then Air in the outer pocket 511 may be discharged, or only air in the inner pocket 512 may be discharged.

On the other hand, the control unit 30 may control the air of the air pocket 51 in conjunction with the smart terminal (40). The control unit 30 and the smart terminal 40 may be connected through various wired and wireless communication networks to transmit and receive various signals between each other.

First, the control unit 30 transmits the temperature sensed by each of the temperature sensing units 10 to the smart terminal 40 . Thereafter, when an air amount control command is transmitted from the smart terminal 40, the control unit 30 operates the air pump 21 according to the air amount control command and controls the air amount control unit 22 to control the air amount of the air pocket 51. to adjust

Meanwhile, when the smart terminal 40 receives the temperature sensed by each of the temperature sensing units 10 from the control unit 30, it displays the temperature of each part along with displaying the clothes 50 on the screen. At this time, the smart terminal 40 may display the internal temperature for each part in color or text.

In addition, the smart terminal 40 may set a set temperature and a limit temperature for each part of the human body. That is, the smart terminal 40 receives the set temperature or limit temperature from the wearer and transmits it to the control unit 30, and the control unit 30 updates the received set temperature or limit temperature.

The wearer may check the temperature of each body part through the smart terminal 40 and touch a part to control the temperature. When an air amount control command for controlling the temperature of a body part is input from a user interface, that is, the wearer, the smart terminal 40 transmits the air amount control command to the control unit 30 .

The air amount control command may include both air injection and discharge commands for each air pocket 51, and is not particularly limited.

Here, the smart terminal 40 may include a user's smartphone, laptop computer, PDA (Personal Digital Assistant), and the like. The smart terminal 40 is not particularly limited as long as it is equipped with a processor for communication and control therein, transmits and receives various information through the control unit 30 and a wired or wireless communication network through them, and processes and stores input and output information.

Hereinafter, the air conditioning process of custom-adjustable smart clothes according to an embodiment of the present invention will be described in detail with reference to FIGS. 4 and 5 .

4 is a flowchart illustrating an example of an air conditioning process for custom-adjustable smart clothing according to an embodiment of the present invention.

Referring to FIG. 4 , first, the control unit 30 senses the temperature of the air layer formed between the human skin surface and the innermost layer of clothing through each of the temperature sensing units 10 (S110).

As the temperature is sensed by the temperature sensing unit 10, the control unit 30 compares each temperature detected by each temperature sensing unit 10 with a preset set temperature to determine whether any of these temperatures is less than the set temperature. Do (S120).

As a result of the determination in step S120, if there is a temperature lower than the set temperature among the temperatures, the controller 30 detects an air pocket 51 corresponding to the corresponding body part. Subsequently, the controller 30 operates the air pump 21 and controls the air amount controller 22 to inject air into the air pocket 51 corresponding to the corresponding body part (S130).

At this time, the controller 30 selectively injects air into any one of the outer pocket 511 and the inner pocket 512 of the corresponding air pocket 51, or simultaneously into the outer pocket 511 and the inner pocket 512 at the same time. air can be injected. In this case, when the air injection pipe for injecting air into the corresponding air pocket 51 is closed by the blocking part 25, air is not injected into the corresponding air pocket 51.

In addition, the control unit 30 compares the temperature between the surface of the human body and the clothing 50 by each temperature sensor 10 with a predetermined limit temperature, and controls the air volume control unit 22 according to the comparison result to the corresponding body part. The air of the air pocket 51 corresponding to may be discharged.

5 is a flowchart illustrating another example of an air conditioning process for custom-adjustable smart clothes according to an embodiment of the present invention.

Referring to FIG. 5 , first, the control unit 30 detects the temperature of the air layer formed between the human skin surface and the innermost layer of clothing through the temperature sensor 10 (S210), and the temperature detected by each smart terminal ( 40) (S220).

When the smart terminal 40 receives the temperature sensed by each of the temperature sensing units 10 from the control unit 30, it displays the temperature for each part along with displaying the clothes 50 on the screen (S230).

Accordingly, the wearer can check the temperature of each body part through the smart terminal 40 and touch a part to control the temperature.

When an air amount control command is input (S240) to control the temperature of a body part, the smart terminal 40 transmits the air amount control command to the control unit 30 (S250).

The control unit 30 adjusts the air amount of the air pocket 51 according to the air amount control command transmitted from the smart terminal 40 (S260).

As such, the custom-adjustable smart clothing according to an embodiment of the present invention can secure thermal comfort within the clothing by automatically adjusting the amount of air for each part of the clothing according to the climate inside the clothing.

In addition, the custom-adjustable smart clothing according to an embodiment of the present invention transmits the climate inside the clothing to the wearer's smart terminal in real time so that the wearer can check it, and based on this, the wearer uses the smart terminal to determine the amount of air in the air pocket. It is possible to improve the wearer's satisfaction with clothes by allowing to control.

Implementations described herein may be embodied in, for example, a method or process, an apparatus, a software program, a data stream, or a signal. Even if discussed only in the context of a single form of implementation (eg, discussed only as a method), the implementation of features discussed may also be implemented in other forms (eg, an apparatus or program). The device may be implemented in suitable hardware, software and firmware. The method may be implemented in an apparatus such as a processor, which is generally referred to as a processing device including, for example, a computer, microprocessor, integrated circuit or programmable logic device or the like. Processors also include communication devices such as computers, cell phones, personal digital assistants ("PDAs") and other devices that facilitate communication of information between end-users.

Although the present invention has been described with reference to the embodiments shown in the drawings, it should be noted that this is only exemplary and various modifications and equivalent other embodiments are possible from those skilled in the art to which the technology pertains. will understand Therefore, the true technical protection scope of the present invention will be defined by the claims below.

10: temperature sensor 20: air control unit
21: air pump 22: air volume control unit
23: air supply pipe 24: air discharge pipe
25: blocking unit 30: control unit
40: smart terminal 50: clothing
51: air pocket 511: external pocket
512: inner pocket

Claims (12)

a temperature sensor for sensing the temperature of the air layer between the human skin surface and the innermost layer of clothing;
air pockets divided into a plurality of parts according to the wearer's body part and filled with air;
an air control unit for injecting or discharging air into the air pocket; and
A control unit controlling the air control unit according to the temperature to adjust the amount of air inside the air pocket;
The control unit transmits the temperature to the smart terminal for each part of the wearer's body,
Wherein the control unit adjusts the air amount of each of the air pockets by controlling the air control unit according to the air amount control command when an air amount control command for each of the air pockets is input from the smart terminal. The method of claim 1, wherein the air control unit
an air pump supplying air to the air pocket;
an air supply pipe supplying air from the air pump to the air pocket;
an air discharge pipe for discharging air from the air pocket; and
and an air amount control unit for adjusting the amount of air supplied to the air pocket through the air supply pipe and the amount of air discharged from the air pocket. The method of claim 2, wherein the controller
Custom-adjustable smart clothing characterized in that the air amount of the air pocket is independently adjusted for each part of the wearer's body according to the temperature. The method of claim 2, wherein the air pockets
Custom adjustable smart clothing characterized in that it is divided into an outer pocket and an inner pocket that are laminated. The method of claim 4, wherein the controller
Custom-adjustable smart clothing characterized in that the air amount of any one of the outer pocket and the inner pocket is preferentially adjusted according to the temperature. The method of claim 2, wherein the air control unit
Custom-adjustable smart clothing, characterized in that it further comprises a blocking unit for blocking the air injected into the air pocket through the air supply pipe. The method of claim 6, wherein the blocking unit
Custom adjustable smart clothing, characterized in that installed in the air supply pipe to open and close the air supply pipe according to the wearer's manipulation. The method of claim 2, wherein the temperature sensor
Custom-adjustable smart clothing, characterized in that a plurality of pieces are provided for each part of the wearer's body. The method of claim 2, wherein the controller
and controlling the air controller to inject air into the air pocket when the temperature is equal to or less than a predetermined set temperature. 10. The method of claim 9, wherein the controller
The custom-adjustable smart clothing characterized in that the air amount controller controls the air amount controller according to the temperature difference between the set temperature and the temperature and the volume of the air pocket to supply different air amounts for each air pocket. delete delete

Images