KR20180128682A - Near infrared LED module equipped with a micro current drive circuit - Google Patents

Abstract

The present invention relates to a near-infrared LED light source module having a fine current driving circuit and, more specifically, to a near-infrared LED light source module having a fine current driving circuit, capable of controlling light intensity and light irradiation time of a light source, interlocking a light source with one module, improving heat radiation performance, enabling determination of wavelengths and light intensity according to a diagnosis result of pain and lesion states, and having a fine current driving circuit controllable through a wireless module. The near-infrared LED light source module mounted with the fine current driving circuit according to the present invention can control light intensity and light irradiation time of a light source, can link the light source to one module, and can improve heat radiation performance. In addition, the present invention can manage diagnosis and integration solutions by using a tablet PC or a smartphone by applying a wireless communications module, determine wavelengths and light intensity according to a diagnosis result of pain and lesion states, and control the same through a wireless module.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a near infrared LED light source module equipped with a micro current drive circuit,

The present invention relates to a near-infrared LED light source module equipped with a micro-current driver circuit, which can control the light amount and the light irradiation time of the light source, can interoperate the light source with a single module, To a near-infrared LED light source module equipped with a micro current drive circuit capable of determining wavelength and light amount according to a diagnosis result of a pain and a lesion state and being controllable through a wireless module.

As known, an LED (Light Emitting Diode) uses a pn junction structure to produce a small number of carriers (electrons or holes) and emits light by recombination thereof. In recent years, a light emitting diode Therapeutic devices having a therapeutic purpose for specific skin diseases are being developed by stimulating the cell structure by photomodulation by absorption of light (Photon Absorption).

That is, it is widely known that irradiation of light to a living body activates cells by its optical action, and by inducing activation of the physiological function of the living body by irradiation with energy as low as no damage to living cells, Such as the rapid regeneration of the disease, the elimination of causative diseases, and the like. It is already known that different therapeutic effects are exhibited depending on the wavelength of the light used.

For example, an LED with a wavelength of 633 nm is known to enhance the natural healing power of the skin to produce healthy and beautiful skin through the production of collagen and elastin. LEDs of 415 nm blue light are known to be effective for the treatment of inflammatory diseases, Has been known to be effective in the regeneration of skin cells and wound healing after sunburn.

These LED phototherapy devices are simple and easy to use, and their therapeutic prognosis is good, and various therapeutic products are widely available.

The conventional optical photodetector includes a main body having a head having a plurality of LEDs arranged therein, an arm for adjusting the position and angle of the head, and a power supply unit for supplying power to the LED provided in the head. do.

However, in the conventional LED optical therapy apparatus, since the LED provided in the head has a short wavelength, there is a disadvantage that the object and purpose of treatment are limited. To solve this problem, it is inconvenient to replace the head with the LED having a different wavelength have.

In order to solve these drawbacks, Korean Patent No. 10-0839022 does not disclose a 'multi-wavelength power LED light medical device'.

The multi-wavelength LED module includes a plurality of multi-wavelength LED modules. The multi-wavelength LED module is divided into a plurality of sectors and is rotatable for each sector. A support arm for supporting the head and adjusting a position and an angle of the head, a main body having a power supply unit for fixing and supporting the support arm and supplying power to the 'multi-wavelength LED module' With this configuration, it is possible to output a selective wavelength or a plurality of wavelengths through the multi-wavelength LED module without having to replace the heads each having LEDs of different wavelengths.

However, since the above-described LED light therapy device for multi-wavelength output medical treatment arranges elements having different wavelengths on one side of a narrow head, the intensity and density of light are remarkably reduced as compared with a short wavelength LED composed only of a short wavelength LED, There is a problem that the effect becomes poor.

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and it is an object of the present invention to provide a micro-current driving circuit capable of controlling light quantity of a light source and a light irradiation time, interlocking a light source with a single module, And an object of the present invention is to provide a near-infrared LED light source module equipped with a near-infrared LED light source module.

In addition, the present invention can manage a diagnostic and integration solution using a tablet PC or a smart phone by applying a wireless communication module, determine a wavelength and an amount of light according to a diagnosis result of a pain and a lesion state, An object of the present invention is to provide a near-infrared LED light source module equipped with a fine current drive circuit that can be mounted on a substrate.

According to another aspect of the present invention, there is provided a near-infrared LED light source module including a metal PCB and a plurality of infrared LEDs disposed on one surface of the metal PCB and including a plurality of infrared LEDs for emitting infrared light. A light source unit having an LED array; A driver for converting power supplied from the outside into driving power of the infrared LED and independently supplying the driving power to each of the LED arrays and controlling driving of the LED arrays according to an input driving control signal; A controller for outputting a drive control signal for independently driving each of the LED arrays to the driver; A minute current generator for generating a minute current to supply a minute current to the light source; And a wireless communication unit for communicating with a user terminal owned by the user and receiving a control signal transmitted from the user terminal and transmitting the received control signal to the control unit.

The near-infrared LED light source module mounted with the micro-current driver circuit according to the present invention has an advantage that the light amount of the light source and the light irradiation time can be controlled, the light source can be interlocked with one module, and the heat radiation performance can be improved .

In addition, the present invention can manage a diagnostic and integration solution using a tablet PC or a smart phone by applying a wireless communication module, determine a wavelength and an amount of light according to a diagnosis result of a pain and a lesion state, There is an advantage to be able to do.

1 is a perspective view showing a state in which a near-infrared LED light source module mounted with a micro-current driving circuit according to the present invention is mounted on a stand.
2 is a block diagram showing a control system of a near-infrared LED light source module mounted with a microcurrent driving circuit according to the present invention.
3 is a block diagram showing a control system of a near-infrared LED light source module mounted with a micro-current driver circuit according to the present invention.

Hereinafter, a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 to 3 are shown according to the present invention. 1 to 3, a near-infrared LED light source module 100 equipped with a microcurrent driving circuit according to the present invention includes an infrared LED 101, a driver 201, a controller 300, And a wireless communication unit 400, and is supported by a stand at a predetermined height from the ground.

Before describing a near-infrared LED light source module 100 equipped with a micro current drive circuit according to the present invention, a stand supporting a near-infrared LED light source module 100 mounted with a micro current drive circuit according to the present invention will be described.

The stand includes a support portion 40 that is seated on the ground, a rod portion 50 that is fixed to one side of the support portion 40 and the other side of which extends upwardly of the support portion 40, And an angle adjusting unit for adjusting an irradiation angle of the near-infrared LED light source module 100 mounted on the top of the micro-current driving circuit according to the present invention, wherein the angle adjusting unit includes a bent portion.

The rod portion 50 includes a fixed rod whose lower end is fixed to the receiving portion 40 and whose sliding hole is formed along the longitudinal direction of the fixed rod, And a lifting rod that is coupled to the inside of the fixing rod or pullably coupled to the outside of the fixing rod so as to adjust the entire length of the rod portion.

The bending portion is irradiated with light emitted from the near-infrared LED light source module 100 mounted with the micro-current driving circuit according to the present invention in a desired direction by one side connected to the upper end of the rod portion 50 and the other side extending upward So that it can be bent in all directions and maintained in a bent state. The lower end of the bent portion is fixed to the lifting rod of the rod portion (50). The bent portion is formed so that it can be bent or bent freely when the user bends in a desired direction by applying an external force, and is formed so as to be able to continuously maintain a bent state or a bent state after the external force is removed. The bent portion may be a goods neck structure used for adjusting the angle.

An infrared LED 101 of a near infrared ray LED light source module 100 equipped with a micro current drive circuit according to the present invention includes a metal PCB and a plurality of infrared LEDs 101 arranged on one surface of the metal PCB and emitting infrared rays And a plurality of LED arrays 110 including a plurality of LED arrays.

The metal PCB is formed to have a predetermined length and width, and a plurality of infrared LEDs are arranged on a surface of the metal PCB so as to be spaced apart from each other along the longitudinal direction.

The surface of the metal PCB may be coated with white, using any one of Ag, Al ₂ O ₃ , TiO ₂ , Al, PEN, and PET, except for the portion where the infrared LED 101 is mounted, So that the light emitted from the infrared LED 101 can be reflected.

In the LED array 110, infrared LEDs 101 emitting infrared rays are arranged in a predetermined pattern on the metal PCB (arranged in a line in this embodiment), and a plurality of the LEDs 101 are arranged to be spaced apart from each other in a metal fish stall. Each of the infrared LEDs 101 of the LED array 110 may be arranged in a line on the metal PCB, as shown, or alternatively in a zigzag form. The infrared LEDs of the LED array 110 may uniformly emit infrared rays of the same wavelength range. Alternatively, the infrared LEDs 101 may emit infrared rays of different wavelengths for each of the LED arrays 110 have.

The driver 201 converts power supplied from the outside into voltage and current suitable for the driving characteristics of the infrared LED 101 and supplies the voltage and current independently to each of the LED arrays 110. In accordance with an input driving control signal, (110). The driver 201 is equipped with a PWM control circuit so that the operation of the infrared LED 101 can be controlled by a PWM (Pulse Width Modulation) method in accordance with a drive control signal transmitted from the control unit 300. [ The driver 201 has a number corresponding to the number of the LED arrays 110.

The controller 300 outputs a drive control signal for independently driving each of the LED arrays 110 to the driver 201. The control unit 300 further includes a sub operation unit 600 that allows the user to select the wavelength emitted from the infrared LED 101 or to select and adjust the intensity of the infrared LED 101. In this sub operation unit 600, The drive control signal inputted through the driver 201 is transmitted to the driver 201. [

The micro-current generator is a micro-current generator for supplying a micro-current to the infrared LED 101 and outputs the micro-current. The micro-current generator includes a controller, a boosting unit, and an output unit.

The wireless communication unit 400 is able to communicate with the user terminal 700 owned by the user and receives the control signal transmitted from the user terminal 700 and transmits the received control signal to the control unit 300.

The user terminal 700 includes a main operation unit 710 for allowing the user to select the wavelength of the light source or the intensity of the light source. When the user operates the main operation unit 710 and receives a control signal, To the wireless communication unit 400 through the communication module. At this time, the wireless communication unit 400 receives the control signal generated by the user's operation and transmits the received control signal to the control unit 300. [

The wireless communication unit 400 transmits the operation of the near-infrared LED light source module 100 equipped with the micro-current driving circuit according to the present invention through a user terminal 700 such as a tablet PC or a smart phone using a Bluetooth module, As shown in Fig.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. It will be apparent to those skilled in the art that various changes and modifications may be made without departing from the scope of the invention, It will be appreciated that other equivalent embodiments are possible. Accordingly, the true scope of protection of the present invention should be determined only by the technical idea of the appended claims.

40:
50:
100: Light source module
101: Infrared LED
110: LED array
201: Driver
300:
400:
600:
700: User terminal
710:

Claims (1)

A light source unit having a plurality of LED arrays arranged on one surface of the metal PCB and including a plurality of infrared LEDs emitting infrared rays;
A driver for converting power supplied from the outside into driving power of the infrared LED and independently supplying the driving power to each of the LED arrays and controlling driving of the LED arrays according to an input driving control signal;
A controller for outputting a drive control signal for independently driving each of the LED arrays to the driver;
A minute current generator for generating a minute current to supply a minute current to the light source;
And a wireless communication unit for receiving a control signal transmitted from the user terminal and communicating the received control signal to the control unit in a state in which the user terminal can communicate with the user terminal, Near infrared LED light source module.

Images