KR20210098281A - System, shoes insole, user terminal, method and program for controlling temperature in shoes - Google Patents

Abstract

According to the present invention, a system for controlling an internal temperature of a shoe includes: a user terminal including a processor for setting a set temperature of the internal temperature of the shoe, and a first communication unit for transmitting a temperature control request signal for requesting to control the internal temperature of the shoe to the set temperature; and a shoe insole including a battery unit charged with at least one of a wireless power that is wirelessly received and a generation power generated by a movement of a user, a heating unit for receiving a charged power of the battery unit to generate heat, a second communication unit for receiving the temperature control request signal, a second sensing unit for measuring the internal temperature of the shoe, and a charging/discharging control unit for comparing the internal temperature of the shoe with the set temperature to identify a high/low state when the temperature control request signal is received, and controlling discharging of the battery unit to supply the charged power to the heating unit when the internal temperature of the shoe is less than the set temperature.

Description

System, shoes insole, user terminal, method and program for controlling temperature in shoes

The present invention relates to a system for controlling the internal temperature of a shoe, a shoe insole, a user terminal, a method and a program, and more particularly, a heating unit that generates heat using the charging power of a battery unit charged with one or more of wireless power and generated power. It relates to a system, a shoe insole, a user terminal, a method, and a program for controlling the internal temperature of a shoe that can control the internal temperature of the shoe.

In general, a shoe consists of a sole and an upper, and although the sole is formed as a single body depending on the type of shoe, it is generally composed of an outsole, a midsole, and an insole (insole) in many cases.

In these shoes, the insole that comes in direct contact with the sole of the foot improves the fit and makes the foot more comfortable. There is also the problem of tingling in the toes.

In particular, it can be quite painful for those who work in a cold place or are particularly cold.

A number of heating insoles have been proposed to solve this problem.

The prior art heating shoe insole comprises a lower member, a planar heating element member, a rechargeable battery member, and an upper member. The planar heating element member is configured to include a main body and a first connecting line, and the main body is seated in the planar heating element seating groove of the lower member.

The body part is a commonly used planar heating element, which uses heat generated by resistance when a voltage is applied to a conductive material, and is generally manufactured by forming a heating layer containing a conductive material in a plane shape on a substrate made of fabric or synthetic resin. .

When the switch is turned on when using the heating shoe insole according to the prior art, the power of the battery body is supplied to the body of the planar heating element to generate heat in the body, and when not in use, when the switch is turned off, the battery body The negative power is cut off.

On the other hand, charging of the body portion of the rechargeable battery member is possible by connecting an adapter to the connection port.

The heating shoe insole according to the prior art as described above has a problem in that it cannot be used in an environment where electricity cannot be supplied because it can be charged only by connecting an adapter to the connection port connected to the rechargeable battery member.

And, since the planar heating element member consumes current according to the resistance value of the heating element, the battery is quickly discharged and the heating temperature control according to the external temperature environment is not performed.

Korea Registered Utility Model No. 20-413644

An object of the present invention is to provide a system, a shoe insole, a user terminal, a method and a program for controlling the internal temperature of the shoe to a set temperature through wireless power and generated power.

The objects of the present invention are not limited to the above-mentioned objects, and other objects and advantages of the present invention not mentioned may be understood by the following description, and will be more clearly understood by the embodiments of the present invention. Moreover, it will be readily apparent that the objects and advantages of the present invention may be realized by the means and combinations thereof indicated in the claims.

The system for controlling the internal temperature of the shoe according to the present invention for solving the above technical problem is a processor for setting a set temperature of the internal temperature of the shoe; and a first communication unit for transmitting a temperature control request signal for requesting to control the internal temperature of the shoe to the set temperature; and a battery unit charged with one or more of wireless power received wirelessly and power generated by a user's movement. a heat generating unit receiving the charging power of the battery unit and generating heat; a second communication unit for receiving the temperature control request signal; a second sensing unit for measuring the internal temperature of the shoe; And when the temperature control request signal is received, comparing the internal temperature of the shoe with the high and low of the set temperature, and if the internal temperature of the shoe is less than the set temperature, controlling the discharging of the battery unit to supply the charging power to the heating unit It may include; a shoe insole including a charge/discharge control unit.

Preferably, after the first standby time when the first standby time has elapsed from the first transmission time when the temperature control request signal is transmitted, the processor determines the internal temperature of the shoe measured from the second sensing unit included in the shoe insole on the left side and The set temperature may be corrected as the first correction temperature based on a temperature deviation between the internal temperature of the shoe measured by the second sensing unit included in the insole of the right shoe.

Preferably, when the temperature deviation exceeds a preset reference temperature deviation, the processor may reduce the set temperature corresponding to the higher internal temperature of the shoe and correct it as the first corrected temperature.

Preferably, the first communication unit may transmit a first temperature correction request signal for requesting to control the internal temperature of the shoe to the first correction temperature.

Preferably, the processor corrects the first correction temperature to a second correction temperature equal to the preset temperature when the temperature deviation is less than the preset reference temperature deviation after the second transmission time point at which the temperature correction request signal is transmitted can do.

Preferably, the first communication unit may transmit a second temperature correction request signal for requesting to control the internal temperature of the shoe to the second correction temperature.

The user terminal for controlling the internal temperature of the shoe according to the present invention for solving the above technical problem is a processor for setting a set temperature of the internal temperature of the shoe; and a first communication unit for transmitting a temperature control request signal for requesting to control the internal temperature of the shoe to the set temperature to the second communication unit of the shoe insole including a heating unit.

Preferably, after the first standby time when the first standby time has elapsed from the first transmission time when the temperature control request signal is transmitted, the processor determines the internal temperature of the shoe measured from the second sensing unit included in the shoe insole on the left side and The set temperature may be corrected as the first correction temperature based on a temperature deviation between the internal temperature of the shoe measured by the second sensing unit included in the insole of the right shoe.

Preferably, when the temperature deviation exceeds a preset reference temperature deviation, the processor may reduce the set temperature corresponding to the higher internal temperature of the shoe and correct it as the first corrected temperature.

Preferably, the first communication unit may transmit a first temperature correction request signal for requesting to control the internal temperature of the shoe to the first correction temperature.

Preferably, the processor corrects the first correction temperature to a second correction temperature equal to the preset temperature when the temperature deviation is less than the preset reference temperature deviation after the second transmission time point at which the temperature correction request signal is transmitted can do.

Preferably, the first communication unit may transmit a second temperature correction request signal for requesting to control the internal temperature of the shoe to the second correction temperature.

The shoe insole for controlling the internal temperature of the shoe according to the present invention for solving the above technical problem is a battery unit charged with one or more of the wireless power received wirelessly and the generated power generated by the user's movement; a heat generating unit receiving the charging power of the battery unit and generating heat; a second communication unit for receiving a temperature control request signal requesting to control the internal temperature of the shoe to a set temperature; a second sensing unit for measuring the internal temperature of the shoe; And when the temperature control request signal is received, comparing the internal temperature of the shoe with the high and low of the set temperature, and if the internal temperature of the shoe is less than the set temperature, controlling the discharging of the battery unit to supply the charging power to the heating unit It may include a; charge/discharge control unit.

The method for adjusting the internal temperature of the shoe according to the present invention for solving the above technical problem comprises the steps of a processor setting a set temperature of the internal temperature of the shoe; and transmitting a temperature control request signal for requesting that the first communication unit control the internal temperature of the shoe to the set temperature to the second communication unit of the shoe insole including a heating unit.

The method for controlling the internal temperature of the shoe is from the second sensing unit included in the shoe insole on the left after the first standby time elapsed from the first transmission time when the processor transmits the temperature control request signal. The method may further include; correcting the set temperature to a first correction temperature based on a temperature deviation between the measured internal temperature of the shoe and the internal temperature of the shoe measured from the second sensing unit included in the shoe insole on the right.

The method for adjusting the internal temperature of the shoe may include: when the temperature deviation exceeds a preset reference temperature deviation, reducing the set temperature corresponding to the higher internal temperature of the shoe and correcting it to the first corrected temperature; and transmitting, by the first communication unit, a first temperature correction request signal requesting to control the internal temperature of the shoe to the first correction temperature.

In the method for controlling the internal temperature of the shoe, after the second transmission time point when the processor transmits the temperature correction request signal, when the temperature deviation is less than the preset reference temperature deviation, the first correction temperature is set equal to the set temperature calibrating to a second correction temperature; and transmitting, by the first communication unit, a second temperature correction request signal for requesting to control the internal temperature of the shoe to the second correction temperature.

The method for controlling the internal temperature of the shoe according to the present invention for solving the above technical problem comprises the steps of charging the battery unit with one or more of the wireless power received wirelessly and the generated power generated by the user's movement; generating heat by receiving the charging power of the battery unit; Receiving a temperature control request signal for requesting the second communication unit to control the internal temperature of the shoe to a set temperature; measuring an internal temperature of the shoe by a second sensing unit; And when the charging/discharging control unit receives the temperature control request signal, compares the internal temperature of the shoe with the high and low of the set temperature, and when the internal temperature of the shoe is less than the set temperature, the battery unit to supply the charging power to the heating unit It may include; controlling the discharge.

The computer program according to the present invention for solving the above technical problem may be stored in a computer-readable recording medium in combination with a computer, which is hardware, to perform the above-described method.

According to the present invention, by adjusting the internal temperature of the shoe to the set temperature, it is possible to prevent the occurrence of frostbite on the user's foot in a low temperature situation.

1 is a view showing a system for controlling the internal temperature of a shoe according to various embodiments of the present invention.
FIG. 2 is a block diagram illustrating components of a user terminal of a system for controlling an internal temperature of a shoe according to an embodiment of the present invention.
3 is a diagram illustrating a first example of a screen displayed by a display unit of a user terminal of a system for adjusting the internal temperature of a shoe according to an embodiment of the present invention.
4 is a diagram illustrating a second example of a screen displayed by a display unit of a user terminal of a system for adjusting an internal temperature of a shoe according to an embodiment of the present invention.
5 is a diagram illustrating a first example of a screen displayed by a display unit of a user terminal of a system for controlling an internal temperature of a shoe according to another embodiment of the present invention.
6 is a diagram illustrating a second example of a screen displayed by a display unit of a user terminal of a system for adjusting the internal temperature of a shoe according to another embodiment of the present invention.
7 is a diagram illustrating a third example of a screen displayed by a display unit of a user terminal of a system for adjusting an internal temperature of a shoe according to another embodiment of the present invention.
8 is a diagram illustrating a fourth example of a screen displayed by a display unit of a user terminal of a system for adjusting an internal temperature of a shoe according to another embodiment of the present invention.
9 is a block diagram showing the components of the shoe insole of the system for controlling the internal temperature of the shoe according to an embodiment of the present invention.
10 is a view showing a first inner layer of the shoe insole of the system for controlling the internal temperature of the shoe according to an embodiment of the present invention.
11 is a view showing a second inner layer of the shoe insole of the system for controlling the internal temperature of the shoe according to an embodiment of the present invention.
12 is a view showing a third inner layer of the shoe insole of the system for controlling the internal temperature of the shoe according to an embodiment of the present invention.

Hereinafter, various embodiments of the present invention will be described with reference to the accompanying drawings. However, this is not intended to limit the present invention to specific embodiments, and it should be understood that various modifications, equivalents, and/or alternatives of the embodiments of the present invention are included. In connection with the description of the drawings, like reference numerals may be used for like elements.

In this document, expressions such as "have", "may have", "includes", or "may include" refer to the presence of a corresponding characteristic (eg, a numerical value, function, operation, or component such as a part). and does not exclude the presence of additional features.

In this document, expressions such as “A or B”, “at least one of A or/and B”, or “one or more of A or/and B” may include all possible combinations of the items listed together. . For example, "A or B", "at least one of A and B", or "at least one of A or B" means (1) includes at least one A, (2) includes at least one B; Or (3) it may refer to all cases including both at least one A and at least one B.

Expressions such as "first", "second", "first", or "second" used in this document may modify various elements, regardless of order and/or importance, and may modify one element. It is used only to distinguish it from other components, and does not limit the components. For example, the first user equipment and the second user equipment may represent different user equipment regardless of order or importance. For example, without departing from the scope of the rights described in this document, a first component may be referred to as a second component, and similarly, the second component may also be renamed as a first component.

A component (eg, a first component) is "coupled with/to (operatively or communicatively)" to another component (eg, a second component) When referring to "connected to", it will be understood that the certain element may be directly connected to the other element or may be connected through another element (eg, a third element). On the other hand, when it is said that a component (eg, a first component) is "directly connected" or "directly connected" to another component (eg, a second component), the component and the It may be understood that other components (eg, a third component) do not exist between other components.

The expression “configured to (or configured to)” as used in this document, depending on the context, for example, “suitable for”, “having the capacity to )", "designed to", "adapted to", "made to", or "capable of" . The term “configured (or set up to)” may not necessarily mean only “specifically designed to” hardware. Instead, in some contexts, the expression “a device configured to” may mean that the device is “capable of” with other devices or parts. For example, the phrase "a processor configured (or configured to perform) A, B, and C" refers to a dedicated processor (eg, an embedded processor) for performing the operations, or by executing one or more software programs stored in memory. , may mean a generic-purpose processor (eg, a CPU or an application processor) capable of performing corresponding operations.

Terms used in this document are only used to describe specific embodiments, and may not be intended to limit the scope of other embodiments. The singular expression may include the plural expression unless the context clearly dictates otherwise. Terms used herein, including technical or scientific terms, may have the same meanings as commonly understood by one of ordinary skill in the art described in this document. Among the terms used in this document, terms defined in general dictionary may be interpreted with the same or similar meaning to the meaning in the context of the related art, and unless explicitly defined in this document, have an ideal or excessively formal meaning. not interpreted In some cases, even terms defined in this document cannot be construed to exclude embodiments of this document.

1 is a view showing a system 10 for controlling the internal temperature of a shoe according to various embodiments of the present invention.

Referring to FIG. 1 , the system 10 for controlling the internal temperature of a shoe may include a user terminal 100 and a shoe insole 200 .

The user terminal 100 is an electronic device operated by a user using the system 10 for controlling the internal temperature of the shoe, and may receive a control command from the user, and output and display information in response to the control command. , a variety of information can be transmitted and received with the shoe insole 200 .

Specifically, the user terminal 100 sets the set temperature of the internal temperature of the shoe based on the user's temperature input, and transmits a temperature control request signal requesting to control the internal temperature of the shoe to the set temperature to the shoe insole 200 . can

The user terminal 100 may be any one of a tablet, a smart phone, a notebook computer, and a PDA.

The shoe insole 200 is inserted into the user's shoe using the system 10 for controlling the internal temperature of the shoe, and the left shoe insole 200 is inserted into the left shoe and the right shoe insole 200 is inserted into the right shoe. can be composed of

The shoe insole 200 may transmit/receive various information to and from the user terminal 100 in order to adjust the temperature inside the shoe.

Specifically, the shoe insole 200 receives the charging power of the battery unit charged with one or more of the wireless power received wirelessly and the generated power generated by the user's movement so that the heating unit heats up, and when a temperature control request signal is received, the shoe The internal temperature and the high and low of the set temperature are compared, and when the internal temperature of the shoe is less than the set temperature, the discharge of the battery unit may be controlled to supply charging power to the heating unit.

2 is a block diagram illustrating the components of the user terminal 100 of the system 10 for controlling the internal temperature of a shoe according to an embodiment of the present invention, and FIG. 3 is a shoe interior according to an embodiment of the present invention. It is a view showing a first example of a screen displayed by the display unit 130 of the user terminal 100 of the system 10 for controlling the temperature, and FIG. 4 is a method for controlling the internal temperature of a shoe according to an embodiment of the present invention. It is a view showing a second example of a screen displayed by the display unit 130 of the user terminal 100 of the system 10, and FIG. 5 is a system 10 for controlling the internal temperature of a shoe according to another embodiment of the present invention. A view illustrating a first example of a screen displayed by the display unit 130 of the user terminal 100 of the user terminal ( 100) is a view showing a second example of a screen displayed by the display unit 130, and FIG. 7 is a display unit of the user terminal 100 of the system 10 for controlling the internal temperature of a shoe according to another embodiment of the present invention. It is a view showing a third example of the screen displayed by 130, and FIG. 8 is a display unit 130 of the user terminal 100 of the system 10 for controlling the internal temperature of a shoe according to another embodiment of the present invention. It is a diagram showing a fourth example of a screen to be displayed.

2 and 8 , the user terminal 100 according to an embodiment of the present invention includes an input unit 110 , a processor 120 , a display unit 130 , a first communication unit 140 , and a storage unit 150 . ) may be included.

The input unit 110 may include a touch screen coupled to the display unit 130 .

The input unit 110 may receive various types of information from the user through the touch screen. Specifically, the input unit 110 may receive a temperature input from the user through the temperature input area I1 displayed on the display unit 130 . Here, the input temperature may be a set temperature.

The processor 120 may control operations of the input unit 110 , the display unit 130 , the first communication unit 140 , and the storage unit 150 .

The processor 120 may include one or more cores (not shown) and a graphic processing unit (not shown) and/or a connection path (eg, a bus, etc.) for transmitting and receiving signals with other components. can

The processor 120 according to an embodiment may be configured to perform an operation of the user terminal 100 by executing one or more instructions stored in the storage unit 150 .

Specifically, the processor 120 may set the set temperature of the shoe internal temperature based on the temperature input input by the user.

Thereafter, the processor 120 may control the first communication unit 140 to transmit a temperature control request signal requesting to control the internal temperature of the shoe to a set temperature to the shoe insole 200 .

On the other hand, after the first standby time when the first standby time has elapsed from the first transmission time when the temperature control request signal is transmitted, the processor 120 determines the internal temperature of the shoe measured from the sensing unit included in the left shoe insole and the right side of the shoe. The set temperature may be corrected as the first correction temperature based on the temperature deviation between the internal temperatures of the shoe measured from the sensing unit included in the shoe insole.

More specifically, when the temperature deviation exceeds a preset reference temperature deviation, the processor 120 may reduce the set temperature corresponding to the higher internal temperature of the shoe and correct it as the first corrected temperature.

In this case, the processor 120 may reduce the set temperature based on the ratio of the temperature deviation to the average temperature of the inner temperature of the shoe to correct the temperature as the first corrected temperature.

For example, the preset reference temperature deviation is 5 degrees Celsius, the set temperature is 20 degrees Celsius, and after the first standby time, measurement is performed from the sensing unit included in the left shoe insole and the sensing unit included in the right shoe insole, respectively. When the indoor temperature of the shoe is 11 degrees Celsius and 17 degrees Celsius, the processor 120 determines that the temperature deviation exceeds the preset reference temperature deviation, and the set temperature corresponding to the shoe insole on the right, which is a higher internal temperature of the shoe, is 20 degrees Celsius It can be corrected to the first correction temperature by decreasing the degree.

At this time, the processor 120 increases the shoe internal temperature by 42% of the average temperature of 11 degrees Celsius and 17 degrees Celsius, which is the average temperature of 14 degrees Celsius, of the temperature deviation 6 degrees Celsius, the temperature difference between the shoe internal temperature of 17 degrees Celsius and the set temperature of 20 degrees Celsius. By applying to 3 degrees Celsius, the reduction temperature is calculated as 1.26 degrees Celsius, and the reduction temperature of 1.26 degrees Celsius is decreased from the set temperature of 20 degrees Celsius, so that it can be corrected as the first correction temperature.

Due to the configuration of the present invention, it is possible to minimize the temperature deviation between the internal temperature of the left and right shoes that occurs in the process of increasing the internal temperature of the shoe.

The processor 120 may control the first communication unit 140 to transmit a first temperature correction request signal requesting to control the internal temperature of the shoe to the first correction temperature to the shoe insole 200 having a higher internal temperature of the shoe. .

Thereafter, when the temperature deviation is less than a preset reference temperature deviation after the second transmission time point at which the temperature correction request signal is transmitted, the processor 120 may correct the first correction temperature to a second correction temperature equal to the preset temperature.

Due to the configuration of the present invention, when the temperature deviation between the inside temperature of the left and right shoes is reduced, it is possible to control the inside temperature of the shoe to quickly rise to the set temperature.

The processor 120 controls the first communication unit 140 to transmit a second temperature correction request signal requesting to control the internal temperature of the shoe to the second correction temperature to the shoe insole 200 that has received the first temperature correction request signal. can do.

On the other hand, the processor 120 controls the display unit 130 to display the internal temperature of the shoe measured from each of the sensing unit included in the left shoe insole and the sensing unit included in the right shoe insole as temperature graphs D1 and D2. can do.

Meanwhile, the processor 120 according to another embodiment may determine whether the user's steps are imbalanced by using the number of steps taken by the user, the amount of power generated, and the temperature difference inside the shoe.

Specifically, the processor 120 calculates an average of the number of steps between the user's steps measured from each of the sensing unit included in the left shoe insole and the sensing unit included in the right shoe insole, and calculates the average of the number of steps compared to the average of the number of steps. A ratio of the deviation of the number of steps between the exceeding number of user steps and the average of the number of steps may be calculated as the first imbalance degree.

The processor 120 calculates the average of the amount of power generated between the self-generation unit included in the left shoe insole and the self-generation unit included in the right shoe insole, respectively, and the amount of power generated and the amount of power that exceeds the average amount of power compared to the average amount of power The ratio of the difference in the amount of power between the averages may be calculated as the second imbalance degree.

The processor 120 calculates an average of the temperature between the inside temperature of the shoe measured from each of the sensing unit included in the left shoe insole and the sensing unit included in the right shoe insole, and the internal temperature of the shoe exceeding the average temperature compared to the average temperature and The ratio of the temperature deviation between the temperature averages may be calculated as the third imbalance degree.

At this time, the processor 120 uses the indoor temperature measured from each of the sensing unit included in the left shoe insole and the sensing unit included in the right shoe insole before the set temperature is set, that is, before the inside temperature of the shoe is adjusted. Thus, it can be calculated as the third imbalance degree.

Thereafter, the processor 120 may calculate the first degree of imbalance, the second degree of imbalance, and the third degree of imbalance as positive or negative values according to whether the shoe insole is on the right or left side.

For example, the processor 120 calculates a positive number by multiplying the calculated value by “+1” when the shoe insole corresponding to each of the first imbalance degree, the second imbalance degree, and the third imbalance degree is on the left, and the first imbalance Also, if the shoe insole corresponding to each of the second degree of imbalance and the third degree of imbalance is the right side, a negative number may be calculated by multiplying the calculated value by “-1”.

Thereafter, the processor 120 calculates a final degree of imbalance by summing the first degree of imbalance, the second degree of imbalance, and the third degree of imbalance, and when the final degree of imbalance exceeds a preset reference degree of imbalance, it is determined that the user has gait imbalance can judge

The display unit 130 may display the temperature input area I1 under the control of the processor 120 .

In addition, the display unit 130, as shown in Figure 3, before the set temperature is set, that is, before the internal temperature of the shoe is adjusted, the sensing unit included in the left shoe insole and the sensing unit included in the right shoe insole, respectively. The measured indoor temperature can be displayed as a temperature graph (D1).

In addition, as shown in FIG. 4 , the display unit 130 includes the sensing unit included in the left shoe insole and the right shoe insole with the set temperature after the set temperature is set, that is, after the internal temperature of the shoe is adjusted. The indoor temperature measured by each of the sensing units may be displayed as a temperature graph D2.

In addition, as shown in FIG. 5 , the display unit 130 may display the number of user steps D3 measured from each of the sensing unit included in the left shoe insole and the sensing unit included in the right shoe insole.

In addition, as shown in FIG. 6 , the display unit 130 may display the amount of power generated D4 generated from each of the self-generation unit included in the shoe insole on the left and the self-generation unit included in the shoe insole on the right.

In addition, the display unit 130, as shown in Figure 7, before the set temperature is set, that is, before the internal temperature of the shoe is adjusted, the sensing unit included in the left shoe insole and the sensing unit included in the right shoe insole, respectively. The measured indoor temperature can be displayed as a temperature graph (D5).

In addition, the display unit 130 may display the final imbalance degree D6 calculated by the processor 120 , the imbalance direction D7 , and a person icon D8 indicating the degree of imbalance, as shown in FIG. 8 . .

The first communication unit 140 may communicate with the shoe insole 200 using short-range wireless communication. To this end, the first communication unit 140 may include a short-range wireless communication module for performing short-range wireless communication. Here, it is noted that the short-range wireless communication is not limited in a communication method as long as the communication is performed in a short-range. For example, short-range wireless communication may use one or more of Bluetooth, Near Field Communication (NFC), and infrared communication.

Also, the first communication unit 140 may be connected to a communication network to communicate with the outside using general-purpose communication.

To this end, the first communication unit 140 may include a general-purpose communication module for performing general-purpose communication. Here, the general-purpose communication is communication using the Internet network, or as a cellular communication protocol, for example, LTE (Long-Term Evolution), LTE-A (LTE Advanced), CDMA (Code Division Multiple Access), WCDMA (Wideband CDMA), At least one of Universal Mobile Telecommunications System (UMTS), Wireless Broadband (WiBro), and Global System for Mobile Communications (GSM) may be used.

The first communication unit 140 transmits a temperature control request signal, a first temperature correction request signal and a second temperature correction request signal including each of the set temperature, the first correction temperature and the second correction temperature to the shoe insole 200 . can

Also, the first communication unit 140 may receive the indoor temperature of the shoe, the number of steps taken by the user, and the amount of power generated from the shoe insole 200 .

The storage 150 may store programs (one or more instructions) for processing and controlling the processor 120 . Programs stored in the storage 150 may be divided into a plurality of modules according to functions.

9 is a block diagram illustrating the components of the shoe insole 200 of the system 10 for controlling the internal temperature of a shoe according to an embodiment of the present invention, and FIG. 10 is a shoe interior according to an embodiment of the present invention. It is a view showing the first inner layer (L1) of the shoe insole 200 of the system 10 for controlling the temperature, Figure 11 is a system 10 for controlling the internal temperature of the shoe according to an embodiment of the present invention It is a view showing the second inner layer (L2) of the shoe insole 200, Figure 12 is the third inside of the shoe insole 200 of the system 10 for controlling the internal temperature of the shoe according to an embodiment of the present invention It is a diagram showing the layer L3.

9 to 12 , the shoe insole 200 according to an embodiment of the present invention includes a wireless power receiver 210 , a self-generation unit 220 , a charge/discharge control unit 230 , a battery unit 240 , It may include a heating unit 250 , a sensing unit 260 , and a second communication unit 270 .

The wireless power receiver 210 may receive wireless power from the wireless power transmission pad (P) when the shoe insole 200 is disposed on the wireless power transmission pad (P). To this end, the wireless power receiving unit 210 may include a power receiving coil.

The wireless power receiver 210 may be disposed on the second inner layer L2 of the shoe insole 200 together with the battery unit 240 and the self-generation unit 220 .

Here, the shoe insole 200 is an upper layer in contact with the user's foot or socks, a lower layer in contact with the lower portion of the shoe, a first inner layer (L1), a second inner layer (L2) and The third inner layer L3 may be formed.

In this case, the first inner layer L1 may be stacked on the top.

Meanwhile, it should be noted that the wireless power transmission/reception method is not limited as long as the wireless power receiver 210 wirelessly receives power.

When the user moves while the shoe insole 200 is inserted into the shoe worn by the user, the self-generation unit 220 may perform power generation by the user's movement.

To this end, the self-generation unit 220 may include a piezoelectric element. On the other hand, it is noted that the wireless self-generation unit 220 is not limited in the power generation method as long as it can perform power generation by the user's movement.

As described above, the self-generation unit 220 may be disposed on the second inner layer (L2) of the shoe insole 200 together with the wireless power receiver 210 and the battery unit 240 .

The charging/discharging control unit 230 controls the charging of the battery unit 240 by controlling the wireless power receiving unit 210 and the self-generation unit 220 , and charging power of the battery unit 240 supplied to the heating unit 250 . to control the discharging of the battery unit 240 .

To this end, the charge/discharge control unit 230 may include a voltage converter for controlling power.

On the other hand, when the charge/discharge control unit 230 receives the temperature control request signal from the second communication unit 270 , compares the height between the internal temperature of the shoe measured from the sensing unit 260 and the set temperature of the temperature control request signal, and the shoe When the internal temperature is less than the set temperature, discharge of the battery unit 240 may be controlled to supply charging power of the battery unit 240 to the heat generating unit 250 .

In addition, when the first temperature correction request signal is received from the second communication unit 270 , the charging/discharging control unit 230 is configured between the shoe internal temperature measured from the sensing unit 260 and the first correction temperature of the first temperature correction request signal. Comparing the high and low, if the inside temperature of the shoe is less than the first correction temperature, it is possible to control the discharging of the battery unit 240 to supply charging power of the battery unit 240 to the heating unit 250 .

In addition, when the second temperature correction request signal is received from the second communication unit 270 , the charging/discharging control unit 230 is configured between the shoe internal temperature measured from the sensing unit 260 and the second correction temperature of the second temperature correction request signal. Comparing the high and low, if the inner temperature of the shoe is less than the second correction temperature, the discharging of the battery unit 240 may be controlled to supply charging power of the battery unit 240 to the heating unit 250 .

The charging/discharging control unit 230 may be configured as an integrated circuit and disposed in the third inner layer L3 together with the sensing unit 260 and the second communication unit 270, and the wireless power receiving unit 210, self It may be electrically connected to the power generation unit 220 , the battery unit 240 , the heating unit 250 , the sensing unit 260 , and the second communication unit 270 .

Meanwhile, the charge/discharge control unit 230 may control the second communication unit 270 to acquire the amount of power generated from the self-generation unit 220 and transmit it to the user terminal 100 .

The battery unit 240 may be charged with one or more of the wireless power received wirelessly by the wireless power receiver 210 and the generated power generated by the user's movement through the self-generation unit 220 .

The battery unit 240 may include a battery module formed of lithium polymer.

Meanwhile, the battery unit 240 penetrates both the first inner layer L1 in which the heating unit 250 is disposed and the second inner layer L1 in which the wireless power receiver 210 and the self-generation unit 220 are disposed. can be placed.

Through this, the battery unit 240 may be electrically connected to the line power receiver 210 , the self-generation unit 220 , and the heat generating unit 250 .

The heating unit 250 may be supplied with charging power charged in the battery unit 240 to generate heat.

The heating unit 250 may include a graphene heating film having flexibility and heating ability.

In addition, the heat generating unit 250 may be disposed on the first inner layer L1 stacked on the top of the inner layers so that the generated heat is transferred to the user's feet.

The sensing unit 260 may measure various pieces of information inside the shoe. Specifically, the sensing unit 260 may measure the internal temperature of the shoe and the number of steps taken by the user. To this end, the sensing unit 260 may include a temperature sensor for measuring the internal temperature of the shoe and an acceleration sensor for measuring the number of steps taken by the user.

The second communication unit 270 may communicate with the user terminal 100 using short-range wireless communication. To this end, the second communication unit 270 may include a short-range wireless communication module for performing short-range wireless communication. Here, it is noted that the short-range wireless communication is not limited in a communication method as long as the communication is performed in a short-range. For example, short-range wireless communication may use one or more of Bluetooth, Near Field Communication (NFC), and infrared communication.

The second communication unit 270 may receive a temperature control request signal, a first temperature correction request signal, and a second temperature correction request signal including each of the set temperature, the first correction temperature and the second correction temperature from the user terminal 100 . can

Also, the second communication unit 270 may transmit the indoor temperature of the shoe, the number of steps taken by the user, and the amount of power generated to the user terminal 100 .

On the other hand, the method for adjusting the internal temperature of the shoe according to an embodiment of the present invention includes the steps of the processor setting a set temperature of the shoe internal temperature, and a temperature control request signal for requesting that the first communication unit control the internal temperature of the shoe to the set temperature. It may include the step of transmitting to the second communication unit of the shoe insole including a heating unit.

In addition, the method of adjusting the internal temperature of the shoe is measured from the second sensing unit included in the shoe insole on the left after the first standby time when the first standby time elapses from the first transmission time when the processor transmits the temperature control request signal The method may further include correcting the set temperature to the first corrected temperature based on a temperature deviation between the internal temperature of the shoe and the internal temperature of the shoe measured from the second sensing unit included in the shoe insole on the right.

In addition, the method of adjusting the internal temperature of the shoe includes the steps of, when the temperature deviation exceeds a preset reference temperature deviation, reducing the set temperature corresponding to the higher internal temperature of the shoe and correcting it to the first correction temperature, and a first communication unit The method may further include transmitting a first temperature correction request signal requesting to control the internal temperature of the shoe to the first correction temperature.

In addition, the method of adjusting the internal temperature of the shoe, after the second transmission time point when the processor transmits the temperature correction request signal, when the temperature deviation is less than the preset reference temperature deviation, the first correction temperature to the second correction temperature equal to the set temperature It may further include the step of compensating and transmitting a second temperature correction request signal for requesting that the first communication unit control the internal temperature of the shoe to the second correction temperature.

On the other hand, the method for controlling the internal temperature of the shoe according to another embodiment of the present invention is a step in which the battery unit is charged with one or more of the wireless power received wirelessly and the generated power generated by the user's movement. The heating unit supplies charging power to the battery unit. Step 2 receives a heat generation step Receiving a temperature control request signal for requesting the second communication unit to control the inside temperature of the shoe to a set temperature Steps for the second sensing unit to measure the inside temperature of the shoe and when the charge/discharge control unit receives the temperature control request signal , Comparing the internal temperature of the shoe and the high and low of the set temperature, and when the internal temperature of the shoe is less than the set temperature, controlling the discharging of the battery unit to supply charging power to the heating unit.

So far, the present invention has been focused on preferred embodiments. Those of ordinary skill in the art to which the present invention pertains will understand that the present invention can be implemented in modified forms without departing from the essential characteristics of the present invention. Therefore, the disclosed embodiments should be considered in an illustrative rather than a restrictive point of view. The scope of the present invention is indicated in the claims rather than the foregoing description, and all differences within an equivalent scope should be construed as being included in the present invention.

As described above, although the present invention has been described with reference to limited embodiments and drawings, the present invention is not limited thereto, and the technical idea of the present invention and the following by those of ordinary skill in the art to which the present invention pertains. Of course, various modifications and variations are possible within the scope of equivalents of the claims to be described.

10: A system for regulating the temperature inside the shoe
100: user terminal
110: input unit
120: processor
130: display unit
140: first communication unit
150: storage
200: shoe insole
210: wireless power receiver
220: self-generation unit
230: charge and discharge control unit
240: battery unit
250: heating part
260: sensing unit
270: second communication unit

Claims (15)

a processor for setting a set temperature of the inside temperature of the shoe; and
A user terminal including a; and
a battery unit charged with at least one of wireless power received wirelessly and power generated by a user's movement;
a heat generating unit receiving the charging power of the battery unit and generating heat;
a second communication unit for receiving the temperature control request signal;
a second sensing unit for measuring the internal temperature of the shoe; and
When the temperature control request signal is received, comparing the internal temperature of the shoe with the high and low of the set temperature, if the internal temperature of the shoe is less than the set temperature, controlling the discharging of the battery unit to supply the charging power to the heating unit Discharge control unit; Shoe insole including; Characterized in that it comprises
A system that regulates the temperature inside the shoe.
According to claim 1,
the processor
After the first standby time when the first waiting time has elapsed from the first transmission time of transmitting the temperature control request signal, the inside temperature of the shoe measured from the second sensing unit included in the left shoe insole and the right shoe insole include Compensating the set temperature as a first correction temperature based on the temperature deviation between the inside temperature of the shoe measured from the second sensing unit
A system that regulates the temperature inside the shoe.
3. The method of claim 2,
the processor
When the temperature deviation exceeds the preset reference temperature deviation, by reducing the set temperature corresponding to the higher internal temperature of the shoe and correcting it with the first correction temperature,
The first communication unit
Transmitting a first temperature correction request signal for requesting to control the internal temperature of the shoe to the first correction temperature
A system that regulates the temperature inside the shoe.
4. The method of claim 3,
the processor
After the second transmission time point at which the temperature correction request signal is transmitted, if the temperature deviation is less than the preset reference temperature deviation, the first correction temperature is corrected to a second correction temperature equal to the preset temperature,
The first communication unit
Transmitting a second temperature correction request signal for requesting to control the internal temperature of the shoe to the second correction temperature
A system that regulates the temperature inside the shoe.
a processor for setting a set temperature of the inside temperature of the shoe; and
A first communication unit for transmitting a temperature control request signal for requesting to control the internal temperature of the shoe to the set temperature to a second communication unit of the shoe insole including a heating unit; characterized in that it comprises a
A user terminal that controls the temperature inside the shoe.
6. The method of claim 5,
the processor
After the first standby time when the first waiting time has elapsed from the first transmission time of transmitting the temperature control request signal, the inside temperature of the shoe measured from the second sensing unit included in the left shoe insole and the right shoe insole include Compensating the set temperature as a first correction temperature based on the temperature deviation between the inside temperature of the shoe measured from the second sensing unit
A user terminal that controls the temperature inside the shoe.
7. The method of claim 6,
the processor
When the temperature deviation exceeds the preset reference temperature deviation, by reducing the set temperature corresponding to the higher internal temperature of the shoe and correcting it with the first correction temperature,
The first communication unit
Transmitting a first temperature correction request signal for requesting to control the internal temperature of the shoe to the first correction temperature
A user terminal that controls the temperature inside the shoe.
8. The method of claim 7,
the processor
After the second transmission time point at which the temperature correction request signal is transmitted, if the temperature deviation is less than the preset reference temperature deviation, the first correction temperature is corrected to a second correction temperature equal to the preset temperature,
The first communication unit
Transmitting a second temperature correction request signal for requesting to control the internal temperature of the shoe to the second correction temperature
A user terminal that controls the temperature inside the shoe.
a battery unit charged with at least one of wireless power received wirelessly and power generated by a user's movement;
a heat generating unit receiving the charging power of the battery unit and generating heat;
a second communication unit for receiving a temperature control request signal requesting to control the internal temperature of the shoe to a set temperature;
a second sensing unit for measuring the internal temperature of the shoe; and
When the temperature control request signal is received, comparing the internal temperature of the shoe with the high and low of the set temperature, if the internal temperature of the shoe is less than the set temperature, controlling the discharging of the battery unit to supply the charging power to the heating unit Discharge control unit; characterized in that it comprises
A shoe insole that regulates the temperature inside the shoe.

setting, by the processor, a set temperature of the internal temperature of the shoe; and
Transmitting a temperature control request signal for requesting that the first communication unit control the internal temperature of the shoe to the set temperature to the second communication unit of the shoe insole including a heating unit; characterized in that it comprises a
How to control the temperature inside the shoe.
11. The method of claim 10,
After the first standby time when the first standby time has elapsed from the first transmission time when the processor transmits the temperature control request signal, the inside temperature of the shoe measured from the second sensing unit included in the left shoe insole and the right shoe Compensating the set temperature to the first correction temperature based on the temperature deviation between the internal temperature of the shoe measured from the second sensing unit included in the insole; characterized in that it further comprises
How to control the temperature inside the shoe.
12. The method of claim 11,
Compensating to the first corrected temperature by reducing the set temperature corresponding to a higher internal temperature of the shoe when the temperature deviation exceeds a preset reference temperature deviation; and
Transmitting a first temperature correction request signal for requesting that the first communication unit control the internal temperature of the shoe to the first correction temperature;
How to control the temperature inside the shoe.
13. The method of claim 12,
correcting the first correction temperature to a second correction temperature equal to the preset temperature when the temperature deviation is less than the preset reference temperature deviation after the second transmission time point at which the processor transmits the temperature correction request signal; and
Transmitting a second temperature correction request signal for requesting that the first communication unit control the internal temperature of the shoe to the second correction temperature;
How to control the temperature inside the shoe.
Charging the battery unit with one or more of the wireless power received wirelessly and the generated power generated by the user's movement;
generating heat by receiving the charging power of the battery unit;
Receiving a temperature control request signal for requesting the second communication unit to control the internal temperature of the shoe to a set temperature;
measuring an internal temperature of the shoe by a second sensing unit; and
When the charge/discharge control unit receives the temperature control request signal, the shoe internal temperature and the high and low of the set temperature are compared, and if the shoe internal temperature is less than the set temperature, the battery unit is discharged to supply the charging power to the heating unit Controlling the; characterized in that it comprises
A shoe insole that regulates the temperature inside the shoe.
A computer program stored in a computer-readable recording medium in combination with a computer, which is hardware, to perform the method of claim 10 or 14.

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