KR101525832B1 - Trousers for helath care using IoT corresponsive trousers - Google Patents

Abstract

The present invention relates to pants operable in an IoT manner for health care which utilize pants operable in an IoT manner, combining pants and IT technology, an application of a smartphone, and a data communication function so as to be applicable to various IoT environments. The pants operable in an IoT manner for health care comprise: a processing apparatus main body including a signal processing unit for receiving at least one signal input from an external input source and processing the signal to output, a communication unit for performing wireless communications with an external device, and a function control unit including various activators for controlling a function of the signal processing unit and an indicator for indicating the function; first and second acceleration sensors mounted in a portion folded inward of both sides pants cuffs of the operation unit and transmitting a movement signal of each of the both sides pants cuffs according to steps of a wearer to the signal processing unit; and a temperature sensor attached to a seam in the pants which is adjacent to a groin region of the pants operable in an IoT manner in order to measure a temperature of the wearer and transmitting a temperature detection signal of legs of the wearer to the signal processing unit.

Description

[0001] Trousers for helath care using IoT corresponsive trousers [

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to pants for health care using pants that can cope with the Internet (IoT) environment.

There are a variety of prior art techniques for so-called functional apparel that impart functionality to the garments that are always worn by humans. The known functional garments include a garment having a blood circulation promotion function (publication number: 2019980006278), a functional garment having antibacterial and far-infrared radiation function (registration number: 1014527850000), a functional garment for massage No. 1020020072817), and a functional garment (registration number: 1011752510000) that can be corrected for body shape.

Recently, some IT-related functional apparel has been known as the IT industry has developed. For example, the present invention can be applied to a portable communication device having a function of storing a portable communication device (registration number: 200342598), 'using a mutual inductance' (No. 1020100056328), and a non-contact communication device between clothes (registration number: 100859320).

According to the development of USN technology and the arrival of IoT technology, the application of clothing and IT technology should be taken as a matter of course, and the emergence of clothing products that are blended with IT technology will accelerate. However, until now, the combination of conventional garments and IT technology has been merely a level of coverage that attaches IT devices to clothes. By fully exploiting the characteristics of clothing and integrating it with IT technology, it can be said that it is a fusion of genuine IT technology and clothing, and it will be an active countermeasure against IoT environment.

The present invention proposes pants that can cope with various IoT environments to which IT technology is applied. Applicants will limit the subject of the present invention to pants. This is because the target person (for example, a business man) who uses the present invention takes off the jacket (especially, a jacket) in winter even in summer. But do not take off your pants. Therefore, it was common to apply various functional elements to the pants in the past, and it was unusual to apply the pants to the pants. However, in most of the workplace or business, There are so many. Also, even in the case of dress shirts, there is not much to take off dress shirts, but it is difficult to apply IT technology to these dress shirts. On the other hand, since it is virtually impossible for a business person to take off his pants, the technical idea according to the present invention will be maximized when applied to pants.

Therefore, it is an object of the present invention to propose a pair of trousers which can cope with IoT by combining pants and IT technology, but by utilizing the function of data communication with an app of a smartphone by allowing the pants themselves to act as a part of an IT device, The present invention is to provide pants which can be applied to various IoT environments and which can truly cope with IoT, and pants for health care using the pants.

In order to solve the above problems, a health care pants according to the present invention includes: a signal processing unit for receiving at least one signal input from an external input source and processing and outputting a signal; a communication unit for wirelessly communicating with an external device; An IoT-compatible pants having a processing apparatus main body including a function operating section including various actuators for operating functions of the processing section and a display for function display; A first acceleration sensor and a second acceleration sensor for transmitting respective motion signals of both sides of the foot to the signal processing unit according to the wearer's stepping on the seam in the pants adjacent to the inguinal part of the pants capable of IoT to measure the body temperature of the wearer, And transmits a temperature detection signal of the wearer's leg to the signal processing unit Temperature sensor.

In this configuration, the processing apparatus main body is installed in the back lining of the pants, and the activator and the indicator of the function operating unit are embedded in the belt loop of the pants, and the first acceleration sensor and the second acceleration sensor are connected to the processing apparatus main body Wherein the wire connecting the temperature sensor and the processing apparatus main body is wired along a surplus fabric in a seam on the inner side of the pants and the signal processing section is installed on both of the pillars A second acceleration sensor and a second acceleration sensor for counting the number of steps of the wearer and receiving a temperature signal from the temperature sensor to estimate and output the body temperature of the wearer's leg, And the communication unit wirelessly transmits the number of steps and the body temperature output from the signal processing unit to an external device .

The signal processing unit includes microinstructions or microprograms that can be installed, changed or updated through an external device, and the signal processing unit is implemented as one of a microcontroller, a PLA, and a microprocessor.

The activator of the function control unit may use a switch, and the display unit may use at least one of an LED, a vibrator, and a sound generator.

A power source for supplying power to the main body of the processing apparatus may be further provided on the back lining of the pants. This power source is a battery or a rechargeable battery, and it is embedded in the back lining of the pants. This power source is a solar module and can be attached to the surface of the belt loop.

The connecting line between the main body of the processing apparatus and the activator and the indicator inserted in the strap loop is wired along the back lining of the pants capable of IoT correspondence.

The external device may be a smart phone equipped with an application, and the app of the smart phone may include a user interface for displaying the number of steps received from the main body of the processing apparatus, an absolute value of temperature, an average value graph, a trend graph, . ≪ / RTI >

According to the present invention, since pants for health management are implemented by using pants capable of IoT in combination with pants and IT technology, applications and data communication functions of a smart phone are utilized, thereby enabling convenient and efficient exercise (walking) and body temperature management The user does not need to carry or wear a separate measuring instrument or measuring instrument and can always use the utility of the pants, which is always worn during external activities. Further, the pants capable of supporting IoT, which is the basis of the present invention, will be able to cope with future USN and IoT environments in depth.

Fig. 1 is a conceptual constitutional diagram of pants capable of supporting IoT, which is the basis of the present invention
Fig. 2 is a block diagram
3 is a conceptual diagram of a pants for health care using pants capable of IoT according to the present invention
Fig. 4 is a configuration diagram of the processing apparatus main body used in Fig. 3

Fig. 1 is a conceptual block diagram of pants capable of IoT support, which is the basis of the present invention.

The main body 20 of the treatment apparatus is built in the back lining 10 of the pants. In FIG. 1, although the processing apparatus main body 20 is represented as being on the outside, it is actually installed in the back lining 10 of the pants and is not seen from the outside.

It is preferable that the processing apparatus main body 20 is made flexible by using a flexible substrate flexibly bent in accordance with the bending of the waist dancing of the pants and according to the activity of the wearer, a flexible part and an SMD element.

2 shows an internal configuration of the processing apparatus main body 20. As shown in Fig. The processing apparatus main body 20 is constituted by a signal processing section 21, a communication section 22, and a function operation section 23.

The signal processing unit 21 receives one or more signals 24 input from an external source such as a sensor or other measurement element (not shown) and generates microinstructions or microprograms A PC or a smart phone) to process and output signals according to a particular sequence or algorithm. The signal processing unit 21 may be implemented by a microcontroller, a PLA, a microprocessor, or the like.

The communication unit 22 is connected to the smartphone 100 through a wireless communication (for example, Bluetooth) to control the processing device main body 20 through an application in the smartphone 100, install or remove a microinstruction or a microprogram, .

The function operation unit 23 is provided with various activators (e.g., switches) 25 for operating the basic functions (e.g., mode switching, start, stop, etc.) of the signal processing unit 21 and various indicators (e.g., an LED, a vibrator, and a sound generator) 26 may be included. Since the function operation section 23 can independently operate and display functions in the pants, it is possible to perform at least a desired function without being connected to the outside through the communication section 22. [

Referring again to FIG. 1, the switch of the function control unit 23, the LED indicator, the tone generator, and the like are incorporated in the belt loop 30 of the pants. Since there are a plurality of the belt loops 30, the various kinds of the activators 25 and the indicator 26 may be divided into the belt loops 30. FIG. If a vibrator is used for the indicator 26, it is preferable to incorporate the vibrator in the waist-like lining 10 so as to stimulate the waist of the wearer.

In the case of the LED of the display device 26, since the user must see with eyes, the display device 26 is installed to be visible from outside on the belt loop 30, and the sound generator in the display device 26 is installed on the belt loop 30 . It is also preferable that the activator 24 is installed in the belt loop 30 within a range that the user can reach.

A power supply unit 40 for supplying power to the processing apparatus main body 20 is also placed on the back lining 10. The power supply unit 40 may use a replaceable battery or an external rechargeable rechargeable battery. If the solar cell module is used as the power source unit 40, the solar cell module should be exposed to the outside. For example, it can be installed on the surface of the belt loop 30.

The wirings of the connecting line 50 between the processor main body 20 and the activator 25 and the indicator 26 and the power supply unit 40 installed in the strap loop 30 are arranged rearwardly along the waist line 10. Because the front has a zippered incision, the wiring can not pass. The butterfly of the pants back waist lining (10) is usually about 30 mm to 50 mm, so it is not difficult to accommodate these connecting lines. In order to reduce the number of connection lines 50 as much as possible, it is preferable to use a normal time division method or a serial driving method for the operation method of the activator 25 and the display device 26.

When various input signals are supplied to the signal processing unit 21 of the processing apparatus main body 20 and the signals are processed by the signal processing unit 21 in a predetermined desired sequence and are connected to the smartphone through the communication unit 22, It is possible to connect to a global network (Internet, etc.) through a phone application and a smart phone, and it can cope with various IoT environments.

An example of utilizing the pants capable of IoT configuration configured as described above as a pants for health care is presented.

As one of the efforts for health care, we are checking the number of pedometer (pedometer) (pedometer, pedometer) in how to walk and how many steps you walked. Alternatively, the body temperature and heartbeat are measured and monitored by a sensor. All of them must have separate external devices (ie pedometer, temperature sensor, monitor, etc.) and it is not easy to keep them daily and it is almost impossible to use them continuously for a long time. In addition, since the pedometer on the waist responds to not only the movement of the leg but also the motion of the waist, a detection error occurs when the leg is actually walking but there is no waist movement or the leg is not walking, I can not do it. In addition, since the temperature sensor must be in direct contact with the human body, it is very inconvenient to continuously monitor the body temperature in daily life.

According to the present invention, the pants which are not removed until the time of returning to the home can be implemented as a health care device and the output signal thereof can be displayed and controlled through the app of the smartphone, when the user walks in the morning without taking the measuring device separately . For this purpose, signals of the acceleration sensor and the temperature sensor are input to the structures shown in FIGS. 1 and 2, the number of steps of the wearer is counted, the body temperature is calculated, and this is communicated to the smartphone, Control and information management. This will be described in detail below.

3 is a configuration diagram of a panty for health care according to the present invention. Basically, the first acceleration sensor 70 and the second acceleration sensor 80 are provided on both the upper and lower pillars 60 of the pants capable of IoT correspondence constructed as shown in FIG. And can be embedded in the folded portion of the inside of the body 60. The first acceleration sensor 70 and the second acceleration sensor 80 and the processing apparatus main body 20 are connected by electric wires 71 and 81. The wires 71 and 81 are wired along the surplus fabric (inside or outside) of the inner side of the trousers (not shown, which means the fabric left inside the trousers at the seam in the trousers). Because these wires are signal wires, they can be used with very thin wires. They are wired along the surplus fabric inside the seams which are present in the pants anyway, so there is no sense to the user at all.

The temperature sensor 90 is for measuring the body temperature of the wearer, and is installed at a position most suitable for measuring the body temperature. This embodiment attaches to the surplus fabric of the inner seam of the crotch part of the pants adjacent to the groin of the human body. The wire 91 is also lifted up along the surplus fabric in the seam inside the pants so that it goes up to the back lining through the lining of the side of the zipper and then wraps to the main body 20 of the processing apparatus.

4 shows a configuration in which the first acceleration sensor 70, the second acceleration sensor 80 and the temperature sensor 90 are connected to the processing apparatus main body 20. An output signal from the first acceleration sensor 70 and the second acceleration sensor 80 and an output signal from the temperature sensor 90 are input to the signal processing unit 21 of FIG.

At this time, in the signal processing unit 21, the output signals of the first acceleration sensor 70 and the second acceleration sensor 80, that is, the first motion signal and the second motion signal according to the bodied motion detected by the wearer, Amplifies each of the signals, waveforms the waveforms, performs AD conversion (if necessary), and counts the number of steps of the pants wearer based on the two motion signals. The reason why the two first acceleration sensors 70 and the second acceleration sensors 80 are provided on both the upper and lower ends is that the legs move but do not actually walk (for example, when sitting on a chair or standing on one leg only (Counting) by a stepping motion. Therefore, only when a significant signal is input from the first acceleration sensor 70 and the second acceleration sensor 80, it is counted as the step of the wearer. This can be easily implemented by a microinstruction or a microprogram embedded in the signal processing unit 21. [

A signal obtained by detecting the output signal of the temperature sensor 90, that is, the temperature of the wearer's leg (in particular, the inguinal region) is also input to the signal processing unit 21. [ In the signal processing unit 21 receiving the temperature signal, the body temperature of the current wearer is measured through amplification, waveform shaping, AD conversion, and the like. This can also be easily implemented by a microprogram or microinstruction embedded in the signal processing unit 21. [

The output of the step number and the body temperature output thus outputted are transmitted to the smartphone 100 through the communication unit 22. A predetermined application (application) is installed in the smartphone 100, and receives and stores these outputs. The user interface provided in the application displays various user-provided information (for example, the absolute value of the number of steps and the temperature, the average graph for a specific period, a trend graph, statistical data, etc.). Of course, it is possible to output basic information through the display unit 26 of the function operating unit 23 described in Fig. It is also possible to independently operate the function of the signal processing unit 21 of the processing apparatus main body 20 at the local pants dimension using the activator 25 of the function operating unit 23. [

Claims (10)

A signal processing unit 21 for receiving at least one signal input from an external input source and processing and outputting the signal, a communication unit 22 for wirelessly communicating the processed signal with an external device, An IoT-compatible pants having a processing apparatus main body 20 including a function operating section 23 including an activator for operating a function and a display for function display,
A first acceleration sensor 70 and a second acceleration sensor 70 which are embedded in the inside folded part of the upper and lower pillars 60 of the pants capable of IoT correspondence and transmit the respective motion signals of the two pillars to the signal processing part 21 in accordance with the wearer's step, 2 acceleration sensor 80,
And a temperature sensor (90) attached to the seam in the pants adjacent to the inguinal part of the pants capable of IoT correspondence to transmit the temperature detection signal of the wearer's leg to the signal processing part (21) so as to measure the body temperature of the wearer,
The main body 20 of the processing apparatus is installed in the back lining of the pants,
The activator and the indicator of the function control unit 23 are installed in the belt loop of the pants,
The electric wires 71 and 81 connecting the first acceleration sensor 70 and the second acceleration sensor 80 to the processing apparatus main body 20 are wired along the excess fabric in the seam inside the pants,
An electric wire 91 connecting the temperature sensor 90 and the processing apparatus main body 20 is wired along a surplus fabric in a seam inside the pants,
The signal processing unit 21 receives the motion signals from the first acceleration sensor 70 and the second acceleration sensor 80 provided at both the pillars 60 to count the number of steps of the wearer, And outputs the body temperature of the leg portion of the wearer,
Wherein the communication unit (22) wirelessly transmits the number of steps and body temperature output from the signal processing unit (21) to an external device. The health care pants according to claim 1, wherein the signal processing unit (21) includes micro instructions that can be installed, changed or updated through an external device. The health care pants according to claim 1, wherein the signal processing unit (21) is implemented as one of a microcontroller, a PLA, and a microprocessor. The pants according to claim 1, wherein the activator of the function control unit (23) is a switch, and the indicator is at least one of an LED, a vibrator, and a sound generator. The pants according to claim 1, further comprising a power supply unit (40) installed in the back lining of the pants for supplying power to the main body (20) of the treatment apparatus. 6. The pants according to claim 5, wherein the power source unit (40) is a rechargeable battery and is incorporated in a lining of the pants. 6. The sanitary panty according to claim 5, wherein the power unit (40) is a solar cell module and is attached to the surface of the strap ring (30). 2. The apparatus according to claim 1, wherein the connecting line between the activator (25) and the indicator (26) provided in the strap loop (30) and the processing apparatus body (20) is wired along the back lining of the pants Pants for health care using pants. The health care pants according to claim 1 or 2, wherein the external device is a smart phone having an app (application) installed therein, using pants capable of IoT. [Claim 11] The method according to claim 9, wherein the app of the smartphone includes a user interface that displays an absolute value, an average value, a trend data, and statistical data of the number of steps and body temperature received from the main processing unit 20, Used pants for health care.

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