CN202069904U - Infrared radiation negative-ion generating device - Google Patents

Abstract

The utility model discloses an infrared radiation negative-ion generating device, which is characterized by being provided with two infrared radiation bodies capable of generating different frequency spectrums. Obtainable near-infrared radiation, medium-infrared radiation and far-infrared radiation have radiation wavelengths of 0.5 micrometer to 25 micrometers, and water molecules in the air are caused to undergo resonance absorption. The water molecules are split into small water molecules due to the infrared resonance absorption, and then air negative ions are generated through an infrared radiation negative-ion generating chamber by pumping of a miniature fan. The air negative ions are capable of settling dust and bacteria with positive charges in the air. Negative oxide ions are capable of decomposing harmful gas in the air such as methanal and the like, eliminating odors, thoroughly purifying the air and simultaneously playing a good role on infrared therapy. The infrared radiation negative-ion generating device is a safe and practical new product in the aspects of environment protection, healthcare and medical treatment.

Description

A kind of infra-red radiation negative ion generating device

Technical field

This utility model belongs to infra-red radiation, anion takes place and environmental technology field.

Background technology

Along with industrial expansion, atmospheric environment is subjected to serious destruction and pollution now, and for the needs of health, people are thinking that most the whole bag of tricks improves this situation.Experience is told us, when having a large amount of anion to exist in the air, will make us feeling that air is fresh especially, it is happy, relaxed and joyful to breathe, reason is that anion makes float such as the dust that carries positive charge in the air, antibacterial carry out sedimentation, thereby has purified air.The anion of occurring in nature is that separated electron attachment makes it become anion in contiguous molecule because powerful energy in gas molecule, and when evicting electronics from, has formed air ion, and the molecule that has lost electronics has just become cation.The equipment that manually produces anion in the market normally adopts electrion to make air ionization produce negative aeroion, this anion generation equipment is when producing anion, also can produce materials such as ozone, can cause secondary pollution to air, health is harmful to health; Simultaneously the electrion parts very easily damage, and have increased the cost of use, maintenance.

The utility model content

A kind of generating means that can provide negative aeroion can be used for infrared treatment simultaneously again safely just is provided the purpose of this utility model.

For the technical scheme that solves the problems of the technologies described above employing is:

This utility model infra-red radiation negative ion generating device is made of shell 1, infra-red radiation anion generation chamber 2, first radiant body 3, second radiant body 4, reflector 5 and miniature exhaust fan 6;

Shell 1 front end is established shell protection guard 11, and miniature exhaust fan 6 is fixed on the back cover in the shell 1;

Infra-red radiation anion generation chamber 2 is fixed in shell 1 inside, and the one side of close shell protection guard 11 designs for open type; Reflector 5 is fixedlyed connected with infra-red radiation anion generation chamber 2 inner back covers; Infra-red radiation anion generation chamber 2 back covers are provided with through hole, are convenient to gas flow;

First radiant body 3 is to be made of one group of quartzy shell of the nanometer carbon fiber in the face of shell protection cover 11, first radiant body 3 is connected with external power source, and can constitute series loop with on and off switch, renewable type Thermal Cutoffs, display lamp, intervalometer, Thermal Cutoffs, the nanometer carbon fiber temperature can reach 1000 ℃, filling with inert gas in the quartz ampoule, nanometer carbon fiber is stablized radiated infrared, the outer temperature of quartz ampoule can reach 530 ℃, and the spectral line scope of generation is first radiated infrared of 0.5 μ m～2.5 μ m;

Second radiant body 4 is that the surface of process special handling is corrugated metallic plate, the half-cylindrical shell shape of its waveform and quartz ampoule mutually roughly the same, second radiant body 4 is provided with deck 41, first radiant body 3 is fixedlyed connected with second radiant body 4 by deck 41, and second radiant body 4 is fixedlyed connected with reflector 5; 4 heating of 3 pairs second radiant bodies of first radiant body, the temperature of second radiant body 4 reaches 250 ℃～400 ℃, and producing the spectral line scope is second radiated infrared of 2.5 μ m～25 μ m;

First, the equidirectional output of second radiant body can get the near of 0.5 μ m～25 μ m, in, far infrared radiation, satisfy water in air molecular absorption line peak, i.e. 2.5 μ m～4 μ m and 5.6 μ m～15 μ m, make airborne hydrone produce resonance absorption, hydrone is subjected to infrared resonance absorption to be fragmented into small water molecule, because of the first radiant body temperature reaches 530 ℃ and room temperature formation high-temperature gradient, small water molecule rushes at first radiant body fast, a part directly forms negative ions because of friction static, and the big hydrone of a part directly clashes into first radiant body quartz ampoule surface and produces negative ions;

Miniature exhaust fan 6 is twitched air-flow, make positive and negative air ion enter the metallic plate that infra-red radiation anion generation chamber 2, the second radiant bodies are process special handlings, again because metal has the characteristic that discharges electronics, when air ion has produced electronics absorption through out-of-date, thereby form anion.Miniature exhaust fan 6 is blown into the negative aeroion orientation in the hull outside environment again, positively charged dust, antibacterial in the negative aeroion settle air, and negative oxygen ion can decompose in the air harmful gass such as formaldehyde, eliminates abnormal flavour, plays the effect that thoroughly purifies air;

The equidirectional output of first, second radiant body can get 0.5 μ m～25 μ m near, in, far infrared radiation, also the absorption with human body skin is complementary, and forms optimal absorption, plays good infrared treatment effect.

The beneficial effects of the utility model are:

This utility model infra-red radiation negative ion generating device is first, the equidirectional output of second radiant body can get the near of 0.5 μ m～25 μ m, in, far infrared radiation, make airborne hydrone produce resonance absorption, hydrone is subjected to infrared resonance absorption to be fragmented into small water molecule, hydrone is subjected to infrared resonance absorption to be fragmented into small water molecule, produce negative aeroion through the mini-fan twitch by infra-red radiation anion generation chamber, be blown in the hull outside environment by miniature exhaust fan orientation again, positively charged dust in the negative aeroion energy settle air, antibacterial, negative oxygen ion can decompose harmful gas such as formaldehyde in the air, eliminate abnormal flavour, play the effect that thoroughly purifies air;

The equidirectional output of first, second radiant body can get 0.5 μ m～25 μ m near, in, far infrared radiation, also the absorption with human body skin is complementary, and forms optimal absorption, plays good infrared treatment effect.

This utility model provides a kind of safe and practical new product for environmental protection, health-care hospital.

Description of drawings

Fig. 1 is this utility model product structure sketch map

Fig. 2 is the cutaway view of this utility model along the A-A line

The specific embodiment

Now with specific embodiment this utility model is described in further detail in conjunction with the accompanying drawings down:

As shown in Figure 1 and Figure 2: this utility model infra-red radiation negative ion generating device is made of shell 1, infra-red radiation anion generation chamber 2, first radiant body 3, second radiant body 4, reflector 5 and miniature exhaust fan 6;

Shell 1 front end is established shell protection guard 11, and the protection human body does not directly contact with high temperature; Miniature exhaust fan 6 is fixed on the back cover in the shell 1;

Infra-red radiation anion generation chamber 2 is fixed in shell 1 inside, and the one side of close shell protection guard 11 designs for open type; Reflector 5 is fixedlyed connected with infra-red radiation anion generation chamber 2 inner back covers; Infra-red radiation anion generation chamber 2 back covers are provided with through hole, are convenient to gas flow;

First radiant body 3 is by being to be made of one group of quartzy shell of one group of nanometer carbon fiber in the face of shell protection guard 11; First radiant body 3 is connected with external power source, and can constitute series loop with on and off switch, renewable type Thermal Cutoffs, display lamp, intervalometer and Thermal Cutoffs, produce temperature and can reach 1000 ℃, filling with inert gas in the quartz ampoule, nanometer carbon fiber is stablized radiated infrared, the outer temperature of quartz ampoule can reach 530 ℃, and the spectral line scope of generation is first radiated infrared of 0.5 μ m～2.5 μ m;

Second radiant body 4 is that the surface of process special handling is corrugated metallic plate, the half-cylindrical shell shape of its waveform and quartz ampoule mutually roughly the same, second radiant body 4 is provided with deck 41, deck 41 can adopt the metal identical with second radiant body 4 to make, and makes deck possess the part of functions of second radiant body simultaneously; First radiant body 3 is fixedlyed connected with second radiant body 4 by deck 41, and second radiant body 4 is fixedlyed connected with reflector 5; 4 heating of 3 pairs second radiant bodies of first radiant body, the temperature of second radiant body 4 reaches 250 ℃～400 ℃, and producing the spectral line scope is second radiated infrared of 2.5 μ m～25 μ m;

First, the equidirectional output of second radiant body can get the near of 0.5 μ m～25 μ m, in, far infrared radiation, satisfy water in air molecular absorption line peak, i.e. 2.5 μ m～4 μ m and 5.6 μ m～15 μ m, make airborne hydrone produce resonance absorption, hydrone is subjected to infrared resonance absorption to be fragmented into small water molecule, because of the first radiant body temperature reaches 530 ℃ and room temperature formation high-temperature gradient, small water molecule rushes at first radiant body fast, a part directly forms negative ions because of friction static, and the big hydrone of a part directly clashes into first radiant body quartz ampoule surface and produces negative ions;

Miniature exhaust fan 6 is twitched air-flow, make positive and negative air ion enter the metallic plate that infra-red radiation anion generation chamber 2, the second radiant bodies are process special handlings, again because metal has the characteristic that discharges electronics, when air ion has produced electronics absorption through out-of-date, thereby form anion.Miniature exhaust fan 6 is blown into the negative aeroion orientation in the hull outside environment again, positively charged dust, antibacterial in the negative aeroion settle air, and negative oxygen ion can decompose in the air harmful gass such as formaldehyde, eliminates abnormal flavour, plays the effect that thoroughly purifies air;

The equidirectional output of first, second radiant body can get 0.5 μ m～25 μ m near, in, far infrared radiation, also the absorption with human body skin is complementary, and forms optimal absorption, plays good infrared treatment effect.

Claims (5)

1. an infra-red radiation negative ion generating device is characterized in that: comprise shell (1), be fixed in shell (1) interior infra-red radiation anion generation chamber (2), first radiant body (3), second radiant body (4), be fixed on reflector (5) and miniature exhaust fan (6) on the inner back cover of infra-red radiation anion generation chamber (2).

2. infra-red radiation negative ion generating device according to claim 1 is characterized in that: described shell (1) front end is established shell protection guard (11), fixes miniature exhaust fan (6) on the back cover in the shell 1.

3. infra-red radiation negative ion generating device according to claim 1, it is characterized in that: described infra-red radiation anion generation chamber (2) designs for open type near the one side of shell protection guard (11), and infra-red radiation anion generation chamber (2) back cover is provided with through hole.

4. infra-red radiation negative ion generating device according to claim 1, it is characterized in that: described first radiant body (3) is to be made of one group of quartzy shell of the nanometer carbon fiber in the face of shell protection cover (11), and first radiant body (3) is connected with external power source.

5. infra-red radiation negative ion generating device according to claim 1, it is characterized in that: described second radiant body (4) is that the surface is corrugated metallic plate, the half-cylindrical shell shape of its waveform and quartz ampoule mutually roughly the same, second radiant body (4) is provided with deck (41), fixedly connected with first radiant body (3) by deck (41), second radiant body (4) is fixedlyed connected with reflector (5).

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