KR200281921Y1 - Infrared Rays Emission Apparatus using Infrared rays emission diode and Infrared Rays radiation - Google Patents

Abstract

The present invention relates to a far infrared ray generating apparatus using an infrared light emitting element and a far infrared ray radiator. The purpose of the present invention is to emit infrared rays primarily using an infrared light emitting element, and to heat far infrared radiators using a thermistor element to radiate far infrared rays secondarily. By providing a far-infrared generator that can generate a large amount of far-infrared rays beneficial to humans.

The present invention is a printed circuit board (10) having a crystal lamp (17) for generating infrared rays and a thermistor (12) for limiting heat generation by self-diagnosis when the heat generated by low power consumption and a certain temperature rises above, and the printed circuit board A thermal conductive resin 20 positioned above the conductive layer 20 to conduct heat generated from the infrared crystal lamp 17 and the thermistor 16, and a radiant heat layer 30 to radiate heat conducted through the thermal conductive resin 20. ), And a far-infrared radiator 40 which receives the heat radiated through the radiant heat layer 30 and radiates far infrared rays secondarily, wherein the printed circuit board 10 is inputted with an applied AC power supply 12. A triac 11 for controlling the temperature by receiving the current of the signal voltage 13, a crystal lamp 17 that generates heat primarily by the current controlled by the triac 11, and the input signal voltage. Microprocessor to process and transmit 13 14, an A / D converter 15 for converting the signal voltage processed by the microprocessor 14 into a digital signal, and a digital signal input through the A / D converter 15, It consists of thermistor 16 which generates heat.

Description

Infrared Rays Emission Apparatus using Infrared rays emission diode and Infrared Rays radiation

The present invention relates to a far infrared ray generating device using an infrared light emitting element and a far infrared ray radiator. More particularly, the present invention relates to a far infrared ray generating device that emits infrared rays primarily using an infrared light emitting element and emits far infrared rays secondly using a thermistor element. will be.

In general, far-infrared rays help to eliminate bacteria that cause various diseases, and expand the capillaries to help blood circulation and cell tissue production. In addition, by touching the water and protein molecules that make up the cells, the cells are shaken finely 2,000 times a minute to activate cell tissue, which is used to prevent various adult diseases such as aging, promoting metabolism, and chronic fatigue.

Conventional far-infrared ray generators consume a lot of power by installing heating materials such as heating wires or heating plates in order to obtain a heating effect in the case of various mats used on a floor or a bed. There was a slow issue.

The present invention was devised to solve the above-mentioned drawbacks, and emits infrared rays primarily by using an infrared light emitting element and heats the far infrared radiator by using a thermistor element to radiate far infrared rays secondarily, which is beneficial to humans. An object of the present invention is to provide a far infrared ray generating device that can be generated in large quantities.

The present invention is a printed circuit board (10) having a crystal lamp (17) for generating infrared rays and a thermistor (12) for limiting heat generation by self-diagnosis if the heat generated by low power consumption and a certain temperature rises above, and the printed circuit board A thermal conductive resin 20 positioned above the conductive layer 20 to conduct heat generated from the infrared crystal lamp 17 and the thermistor 16, and a radiant heat layer 30 to radiate heat conducted through the thermal conductive resin 20. ), And a far-infrared radiator 40 which receives the heat radiated through the radiant heat layer 30 and radiates far infrared rays secondarily, wherein the printed circuit board 10 is inputted with an applied AC power supply 12. A triac 11 for controlling the temperature by receiving the current of the signal voltage 13, a crystal lamp 17 that generates heat primarily by the current controlled by the triac 11, and the input signal voltage. Microprocessor to process and transmit 13 14, an A / D converter 15 for converting the signal voltage processed by the microprocessor 14 into a digital signal, and a digital signal input through the A / D converter 15, It consists of thermistor 16 which generates heat.

1 is a block diagram of a far infrared ray generator according to the present invention.

2 is a circuit diagram of a far infrared ray generator according to the present invention.

<Description of the symbols for the main parts of the drawings>

10: printed circuit board 11: triac (TRIAC)

12 AC power 13 Signal voltage

14 microprocessor 15 A / D converter

16: thermistor 17: crystal lamp

18: resistance

20: resin for heat conduction 30: radiant heat layer

40: far infrared emitter 50: stainless steel case for fixing

60: far infrared radiation case 70: connector

The far-infrared generator using the present invention infrared light emitting device and far infrared emitter which achieves the object as described above and to remove the drawbacks of the prior art by using an infrared light emitting device primarily emits infrared light and uses a thermistor element By heating the far-infrared radiator to radiate far-infrared secondary, it eliminates the problem of high power consumption, risk of device and slowness of heat time, and has a large amount of far infrared rays, low power consumption, safety and fast heating time.

Hereinafter, the configuration and the operation of the embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a configuration diagram of a far infrared ray generating apparatus according to the present invention,

The present invention is a printed circuit board (10) having a crystal lamp (17) that primarily generates infrared rays and a thermistor (12) that generates heat at low power consumption and rises above a certain temperature by self-diagnosis. The thermally conductive resin 20 located on the printed circuit board 10 conducts heat generated from the infrared crystal lamp 17 and the thermistor 16, and the heat conducted through the thermally conductive resin 20 is radiant heat layer 30. ), And the heat radiated through the radiant heat layer 30 is transmitted to the far-infrared radiator 40 to secondaryly emit far infrared rays. In Figure 1, (50) is a stainless case for fixing to prevent damage to the outer portion of the far-infrared generator and firmly fix the far-infrared element, (60) is a far-infrared radiation case combining the far-infrared radiator, (70) is printed This is a connector for connecting the circuit board and external power.

2 is a circuit diagram of a far infrared ray generator printed circuit board 10 according to the present invention,

The crystal lamp 17 primarily generates heat through the triac 11 for controlling the temperature by receiving the current of the applied AC power supply 12 and the input signal voltage 13, and the input signal voltage 13 is applied. Is processed through the microprocessor 14, the input signal 13 processed by the microprocessor 14 is converted into a digital signal by the A / D converter 15, the A / D converter 15 The digital signal input through the second heat generation thermistor (16). Here, (18) serves as a resistor to prevent the destruction of devices such as crystal lamps and triacs due to overvoltage and to use the life semi-permanently.

The present invention configured as described above is the crystal lamp 17 through the triac 11 to control the temperature by receiving the current of the external AC power supply 12 and the input signal voltage 13 applied through the connector 70 is It is primarily to generate heat. The input signal voltage 13 is input to the microprocessor 14 and processed, and the input signal 13 processed by the microprocessor 14 is converted into a digital signal by the A / D converter 15. The digital signal converted and input through the A / D converter 15 generates the thermistor 16 secondarily. As described above, the heat generated primarily and secondly through the crystal lamp and thermistor is operated by radiating far-infrared radiation by heating the far-infrared radiator 30 through the heat-conducting resin 20 which serves to protect the heat conduction and the overall apparatus. .

The present invention is not limited to the above-described specific preferred embodiments, and any person having ordinary skill in the art to which the present invention pertains may make various modifications without departing from the gist of the present invention claimed in the claims. Of course, such changes will fall within the scope of the claims.

The far-infrared generator using the present invention infrared light emitting device and far-infrared radiator configured as described above has a large amount of far-infrared rays, low power consumption, safety, and rapid heat time. It is a useful design that can be used in many fields to produce large amounts of far-infrared rays that are beneficial to humans.

Claims (2)

In the far infrared ray generator, A printed circuit board 10 having a crystal lamp 17 for generating infrared rays and a thermistor 12 for generating heat at low power consumption and raising the temperature by more than a predetermined temperature, thereby limiting heat generation by self-diagnosis; A thermally conductive resin 20 positioned on the printed circuit board 10 to conduct heat generated from the infrared crystal lamp 17 and the thermistor 16; A radiant heat layer 30 for radiating heat conducted through the thermally conductive resin 20; Far-infrared light emitting device using an infrared light emitting element and a far-infrared emitter, characterized in that consisting of a far-infrared radiator 40 to receive the heat radiated through the radiant heat layer (30) to emit far infrared rays. The method of claim 1, The printed circuit board 10 receives a current of an applied AC power supply 12 and an input signal voltage 13 to control a temperature of the triac 11 and a current controlled through the triac 11. The crystal lamp 17 that generates heat primarily by A microprocessor 14 for processing and transmitting the input signal voltage 13, an A / D converter 15 for converting the signal voltage processed by the microprocessor 14 into a digital signal; Far-infrared generator using an infrared light emitting element and a far-infrared emitter, characterized in that consisting of a thermistor (16) which generates secondary heat by the digital signal input through the A / D converter (15).