CN110419955A - Far infrared container - Google Patents

Abstract

The present invention provides a kind of far infrared containers, it include: chamber wall, the inner wall or outer wall of dopen Nano carbon material or the chamber wall are coated with nano-carbon material coating or constitute nanometer carbon coating mosaic texture by the inner-outer tube of chamber wall in the matrix of the chamber wall.The present invention transfers energy to nano-carbon material using substance in container, after nano-carbon material absorbs energy, generates phonon vibration, reacts on container contents, that is, realizes far infrared effect container contents.This far infrared container realizes that far infrared form has simple realization, facilitates the features such as operation, low manufacture cost, has commercialization value extensively.

Description

Far infrared container

Technical field

The present invention relates to far infrared new product field, in particular to a kind of far infrared container.

Background technique

Far infrared is a kind of wave of specific wavelength, and this wave can be subsequently absorbed in the material, reflects and reflect.This wave is to human body There are numerous benefits, is widely used in far-infrared physiotherapy, meanwhile, far infrared is also used for kettle heat source, for heating water, It makes tea, this, which is considered to have, adjusts moisture subfunction, the tea product function of making tea more fragrant.Nano-carbon material has transmitting far infrared function Can, after especially nano-carbon material is heated or is powered, phonon vibration generates far infrared in nano-carbon material, and energy is passed out It goes, and after heated stop, corresponding phonon vibration stops at once, then stops externally transmitting energy.Nano-carbon material is frequent It is made into electric heating material, is powered and nano-carbon material is heated, nano-carbon material phonon vibration transmits energy in the form of far infrared. For example nano-carbon material is made into heating film, heating film has two electrodes, and electrical circuit is made to two electrodes, and being powered to it can both make At nano-sized carbon heating film.At this point, nano-sized carbon heating film converts electrical energy into far infrared wave transmitting energy.

In addition, there is publication report: in kettle bottom-layer design nano-sized carbon heating equipment, nano-sized carbon heating device will be electric Water in infrared waves heating kettle can be converted to.It before this, using the far infrared that nano-sized carbon emits is in a reservoir using electric energy by nanometer Carbon heat form, after nano-carbon material is powered, phonon vibration generates Far-infrared Heating, and this form needs to design complicated circuit And its protective device.

Summary of the invention

The present invention provides a kind of far infrared containers, to solve at least one above-mentioned technical problem.

To solve the above problems, providing a kind of far infrared container as one aspect of the present invention, comprising: chamber wall, In the matrix of the chamber wall inner wall or outer wall of dopen Nano carbon material or the chamber wall be coated with nano-carbon material coating, Or nanometer carbon coating mosaic texture is constituted by the inner-outer tube of chamber wall.

Preferably, described matrix is glass, ceramics, plastics or metal material etc..

Preferably, the far infrared container can be cup, pot, bucket, bowl, cup, spoon, basin etc..

Preferably, the nano-carbon material includes graphene, carbon nanotube, carbon nano-fiber, fullerene, the dilute alkynes of graphite etc. Nano-carbon material is any one or more of.

Preferably, the technique of dopen Nano carbon material can are as follows: is added in non-metallic materials such as glass, ceramics, plastics certain The nano-carbon material of ratio mixes, and then completes container production according to respective production container technique.

Preferably, nanometer carbon pastes can be coated in container inner wall or outer by spraying or silk-screen form by the coating process Wall.

Preferably, the nanometer carbon coating mosaic texture is formed by following manner: on the outside of the liner of container spraying or Silk-screen nanometer carbon pastes, are then placed in housing by liner, constitute nanometer carbon coating mosaic texture.

Preferably, the processing technology of the coating are as follows:

By nano-sized carbon slurry spray or silk-screen on container after, container is heated, it is described to form a nanometer carbon coating Nanometer carbon pastes include nano-carbon material, solvent, binder etc.；

The binder can for macromolecule bonding or glass binder, it is preferable that macromolecule bonding include PU, SBR, CMC, PTFE, PVDF etc., the glass binder preferably contain SiO₂、Na₂SO₄、CaSO₄Deng；

The solvent can with water solvent or organic solvent etc., such as NMP, ethyl alcohol, methanol, ethylene glycol, acetone, toluene, Benzene, dimethylbenzene etc..

Preferably, the nano-sized carbon in chamber wall content from 0.001-99wt.%.

Preferably, nanometer carbon coating thickness is determined between 0.01um to 10000um according to design requirement.

Preferably, the far infrared container further includes the internal container for being placed in the chamber wall and being formed by space.

The present invention transfers energy to nano-carbon material using substance in container, after nano-carbon material absorbs energy, generates Phonon vibration, reacts on container contents, that is, realizes far infrared effect container contents.This far infrared container realizes far infrared Form has simple realization, facilitates the features such as operation, low manufacture cost, has commercialization value extensively.

Specific embodiment

The embodiment of the present invention is described in detail below, but what the present invention can be defined by the claims and cover Multitude of different ways is implemented.

The present invention provides a kind of far infrared container, the far infrared container refers to is added nano carbon material in chamber wall Material, or nano-carbon material is made into coating and is applied to container inner wall, outer wall or inlay (mix inside chamber wall or with aggregate material The nano-sized carbon and matrix composite of composition) in chamber wall.

The container can be glass, ceramics, plastics, metal material etc..The container can for cup, pot, bucket, bowl, cup, Spoon, basin etc..

The nano-sized carbons such as the nano-carbon material containing graphene, carbon nanotube, carbon nano-fiber, fullerene, the dilute alkynes of graphite Material etc..

Adding nano-carbon material technique in the far infrared chamber wall can are as follows: in non-metallic materials such as glass, ceramics, plastics A certain proportion of nano-carbon material mixing is added in matter, then completes container production according to respective production container technique.

The nano-carbon material, which is applied to inner wall technique, to be coated in container for nanometer carbon pastes by spraying or silk-screen form Inner wall.

The nano-carbon material, which is applied to outer wall technique, to be coated in container for nanometer carbon pastes by spraying or silk-screen form Inner wall.

The technique that the nano-carbon material coating is embedded between chamber wall: it can be sprayed on the outside of container inner liner or silk-screen is received Rice carbon pastes, are then placed in housing by liner, constitute nanometer carbon coating mosaic texture.

After the nano-sized carbon coating spraying or silk-screen are on container, container is heated, makes nanometer carbon pastes dry, is formed Nanometer carbon coating, in which:

The nanometer carbon pastes include nano-carbon material, solvent, binder etc.；

The described slurry bonding can macromolecule bonding, containing PU, SBR, CMC, PTFE, PVDF etc.；The slurry binder It can also be glass binder, contain SiO₂、Na₂SO4、CaSO₄Deng；

The solvent can be with water solvent, or organic solvent etc., such as NMP, ethyl alcohol, methanol, ethylene glycol, third Ketone, toluene, benzene, dimethylbenzene etc.；

The nano-sized carbon in chamber wall content from 0.001-99wt.%；

The nanometer carbon coating thickness is determined between 0.01um to 10000um according to design requirement.

There is nano-carbon material in far infrared chamber wall in the present invention, nano-sized carbon can also be made into coating, be applied in container Surface, outer surface are embedded in chamber wall.

Preferably, the far infrared container further includes the internal container for being placed in the chamber wall and being formed by space, i.e., The far infrared container is made into housing, in this way, common vessel is shelved on inside this housing, housing has Far-infrared Heating function Energy.

The present invention transfers energy to nano-carbon material using substance in container, after nano-carbon material absorbs energy, generates Phonon vibration, reacts on container contents, that is, realizes far infrared effect container contents.This far infrared container realizes far infrared Form has simple realization, facilitates the features such as operation, low manufacture cost, has commercialization value extensively.

The foregoing is only a preferred embodiment of the present invention, is not intended to restrict the invention, for the skill of this field For art personnel, the invention may be variously modified and varied.All within the spirits and principles of the present invention, made any to repair Change, equivalent replacement, improvement etc., should all be included in the protection scope of the present invention.

Claims (10)

1. a kind of far infrared container characterized by comprising chamber wall, dopen Nano carbon material in the matrix of the chamber wall, Or the inner wall or outer wall of the chamber wall are coated with nano-carbon material coating or constitute nanometer carbon coating by the inner-outer tube of chamber wall Mosaic texture.

2. far infrared container according to claim 1, which is characterized in that described matrix is glass, ceramics, plastics or gold Belong to material etc..

3. far infrared container according to claim 1, which is characterized in that the far infrared container can for cup, pot, bucket, bowl, Cup, spoon, basin etc..

4. far infrared container according to claim 1, which is characterized in that the nano-carbon material includes that graphene, carbon are received The nano-carbon materials such as the dilute alkynes of mitron, carbon nano-fiber, fullerene, graphite are any one or more of.

5. far infrared container according to claim 1, which is characterized in that the technique of dopen Nano carbon material can are as follows: in glass A certain proportion of nano-carbon material mixing is added in the non-metallic materials such as glass, ceramics, plastics, then according to respective production container work Skill completes container production.

6. far infrared container according to claim 1, which is characterized in that the coating process can pass through spraying or silk-screen shape Nanometer carbon pastes are coated in container inner wall or outer wall by formula.

7. far infrared container according to claim 1, which is characterized in that the nanometer carbon coating mosaic texture passes through following Mode is formed: then spraying or silk-screen nanometer carbon pastes on the outside of the liner of container are placed in housing by liner, constitute nanometer Carbon coating mosaic texture.

8. far infrared container according to claim 1, which is characterized in that the processing technology of the coating are as follows:

By nano-sized carbon slurry spray or silk-screen on container after, container is heated, to form a nanometer carbon coating, the nanometer Carbon pastes include nano-carbon material, solvent, binder etc.；

The binder can for macromolecule bonding or glass binder, it is preferable that macromolecule bonding include PU, SBR, CMC, PTFE, PVDF etc., the glass binder preferably contain SiO₂、Na₂SO₄、CaSO₄Deng；

The solvent can be with water solvent or organic solvent etc., such as NMP, ethyl alcohol, methanol, ethylene glycol, acetone, toluene, benzene, two Toluene etc..

9. far infrared container according to claim 1, which is characterized in that the nano-sized carbon in chamber wall content from 0.001-99wt.%, alternatively, nanometer carbon coating thickness between 0.01um to 10000um, is determined according to design requirement.

10. far infrared container according to claim 1, which is characterized in that the far infrared container further include be placed in it is described Chamber wall is formed by the internal container in space.