CN112411210A - Tourmaline self-heating dot matrix warm clothes and trousers and production process thereof - Google Patents

Abstract

The invention discloses tourmaline self-heating dot matrix warm clothes and trousers and a production process thereof, wherein the tourmaline self-heating dot matrix warm clothes and trousers comprise the following raw materials in percentage by weight: 30-48% of tourmaline; 18-36% of magnesium oxide; 8-24% of activated carbon; 4-16% of vermiculite; 2-9% of far infrared ceramic powder; 2-8% of magnetite powder. Has the advantages that: the invention can adsorb moisture through tourmaline, magnesium oxide and magnet to carry out oxidation reaction, release heat, further realize self-heating, simultaneously coordinate with the catalytic reaction of active carbon, vermiculite and far infrared ceramic powder and improve the heating heat, further improve the self-heating effect, and the raw materials have bioelectricity, can inhibit the breeding of bacteria, and can release negative ions, warm meridians, dredge collaterals, regulate blood circulation and promote metabolism.

Description

Tourmaline self-heating dot matrix warm clothes and trousers and production process thereof

Technical Field

The invention relates to the technical field of self-heating clothes, in particular to tourmaline self-heating dot matrix warm clothes and trousers and a production process thereof.

Background

The self-heating material is obtained by utilizing a chemical exothermic agent to contact with oxygen to generate a chemical reaction to release heat and performing special packaging. The product is widely applied due to simple manufacture, convenient carrying, low price and convenient use, and is more popular among people in cold regions and field work.

Nowadays, a self-heating layer is often arranged on clothes such as clothes and trousers, so that people can keep the body temperature in a cold environment.

Disclosure of Invention

The invention aims to provide tourmaline self-heating dot matrix warm clothes and trousers to solve the problems.

The invention realizes the purpose through the following technical scheme:

tourmaline spontaneous heating dot matrix warm clothes and trousers, which are composed of the following raw materials in percentage by weight: 30-48% of tourmaline; 18-36% of magnesium oxide; 8-24% of activated carbon; 4-16% of vermiculite; 2-9% of far infrared ceramic powder; 2-8% of magnetite powder.

Further, the feed is composed of the following raw materials in percentage by weight: 40% of tourmaline; 25% of magnesium oxide; 15% of activated carbon; 10% of vermiculite; 5% of far infrared ceramic powder; 5 percent of magnetite powder.

Further, the tourmaline is tourmaline.

The invention also provides a production process for preparing the tourmaline spontaneous heating dot matrix warm clothes and trousers, which comprises the following steps:

s1, weighing the raw materials according to the weight ratio;

s2, removing impurities from tourmaline, magnesium oxide, activated carbon, vermiculite, far infrared ceramic powder and magnetite powder, and grinding into powder for later use;

s3, mixing the powder prepared in the step S2 uniformly, and mixing the adhesive cement and the printing adhesive cement anti-sticking agent again until the mixture is uniform;

s4, pouring the mixed liquid prepared in the step S3 into a printing machine, and printing the mixed liquid on the garment material in a dot matrix manner;

s5, heating and fixing the printed fabric;

s6, storing the fabric after color fixation in a dry and sealed environment, and making clothes and trousers.

Further, in the step S2, the powder has a mesh size of 80 to 120 meshes.

Further, in step S3, the adhesive cement: the printing paste anti-sticking agent is 5: 1.

Further, in the step S5, the temperature for heating and fixing is 150-.

The medicinal material efficacy analysis of the invention is as follows:

tourmaline: the composite material has unique performances of piezoelectricity, pyroelectric property, conductivity, far infrared radiation, anion release and the like, can be compounded with other materials through a physical or chemical method to prepare various functional materials, and is applied to the fields of environmental protection, electronics, medicines, chemical industry, light industry, building materials and the like.

Magnesium oxide: the magnesia is a basic oxide, has the universality of the basic oxide and belongs to a cementing material. White powder (yellowish magnesium nitride), odorless, tasteless, non-toxic, is a typical alkaline earth metal oxide, represented by the chemical formula MgO. White powder with a melting point of 2852 ℃, a boiling point of 3600 ℃ and a relative density of 3.58(25 ℃). The magnesium hydroxide is dissolved in acid and ammonium salt solution, is insoluble in alcohol, is exposed in air, can easily absorb moisture and carbon dioxide to gradually become basic magnesium carbonate, is lighter in weight and faster in quality, is combined with water under certain conditions to generate magnesium hydroxide, and is in slight alkaline reaction, and the pH value of saturated aqueous solution is 10.3. The solution is insoluble in water and the solution is alkaline. Is insoluble in ethanol. Having strong refractive properties in the visible and near ultraviolet range.

Activated carbon: the inside of the active carbon has a crystal structure and a pore structure, and the surface of the active carbon also has a certain chemical structure. The adsorption performance of activated carbon depends not only on the physical (pore) structure of the activated carbon but also on the chemical structure of the activated carbon surface. In the preparation process of the activated carbon, the chemical bonds at the edges of the aromatic sheet formed in the carbonization stage are broken to form edge carbon atoms with unpaired electrons. These edge carbon atoms have unsaturated chemical bonds and can react with heteroatoms such as oxygen, hydrogen, nitrogen and sulfur to form different surface groups, the presence of which undoubtedly affects the adsorption properties of the activated carbon. X-ray studies have shown that these heteroatoms bind to carbon atoms at the edges of the fragrance sheet, producing oxygen-, hydrogen-, and nitrogen-containing surface compounds. When these edges become the primary adsorption surface, these surface compounds change the surface characteristics and surface properties of the activated carbon. The surface groups of the activated carbon are divided into 3 types of acidity, alkalinity and neutrality. The acidic surface functional group comprises carbonyl, carboxyl, lactone group, hydroxyl, ether, phenol and the like, and can promote the adsorption of the active carbon to alkaline substances; the basic surface functional group mainly comprises pyrone (cyclic ketone) and derivatives thereof, and can promote the adsorption of acidic substances by the activated carbon. The surface of the activated carbon prepared by acidic activators such as phosphoric acid and the like is mainly acidic groups, so that the activated carbon can better adsorb alkaline substances; the surface of the activated carbon prepared by alkaline activators such as KOH, K2CO3 and the like is mainly provided with alkaline groups and is suitable for adsorbing acidic substances; and the surface functional groups of the activated carbon prepared by physical activation methods such as CO2 and H2O are neutral overall. The active carbon adsorption means that the solid surface of the active carbon is used for adsorbing one or more substances in water so as to achieve the aim of purifying the water. The adsorption capacity of activated carbon is related to the pore size and structure of the activated carbon. Generally, the smaller the particle, the faster the pore diffusion rate, and the stronger the adsorption capacity of the activated carbon. Adsorption capacity and adsorption rate are the main indicators for the adsorption process. The magnitude of the adsorption capacity is measured by the amount of adsorption, and the adsorption rate is the amount adsorbed by the adsorbent per unit weight per unit time. In water treatment, the adsorption rate determines the contact time of the adsorbent with the sewage.

Vermiculite: after the raw vermiculite sheets are roasted at high temperature, the volume of the raw vermiculite sheets can be rapidly expanded by several times to several tens of times, the vermiculite after volume expansion is called as expanded vermiculite which is of a layered structure, crystal water is contained between layers, the volume weight is 50-200kg/m3, the heat conductivity is small, and the vermiculite is a good heat insulation material. The expanded vermiculite with good quality has the maximum use temperature of 1100 ℃. In addition, the expanded vermiculite has good electrical insulation. Expanded vermiculite is widely used in the industries of heat insulating materials, fire-proof materials, seedling raising, flower planting, tree planting, friction materials, sealing materials, electrical insulating materials, coatings, plates, paints, rubbers, refractory materials, hard water softeners, smelting, construction, shipbuilding, chemistry, and the like.

Far infrared ceramic powder: the far infrared ceramics have a main characteristic function of being able to radiate far infrared rays (higher infrared radiance) more than that of a normal object. By utilizing the special performance, the application of the far infrared ceramics is mainly divided into 2 aspects: the application in high temperature area and the application in normal temperature area. The high-temperature heating furnace is mainly applied to heating of boilers, baking finish, heating and drying of wood and food and the like in a high-temperature area; the method is mainly applied to manufacturing various far infrared thermal insulation materials such as far infrared ceramic powder, far infrared ceramic fiber, far infrared ceramic polyester, far infrared functional ceramic and the like in a normal temperature area. For example, some far infrared ceramic materials have been used in sports training and rehabilitation, fuel stove energy saving, indoor air purification and human body health care. The fuel oil is subjected to infrared radiation by using the far infrared ceramic material, so that the viscosity and the surface tension of the fuel oil can be reduced, and the atomization and the sufficient combustion are facilitated. CiM (ceramic colloid injection molding process) far infrared ceramic material developed by professor Yangjinlong of Qinghua university can be made into microbeads with the diameter of 2-3mm for contact type human body infrared health care products; the honeycomb, net or tubular element made of far infrared ceramics is used for fuel automobiles, ships and stoves, the energy-saving effect can reach more than 5 percent, and the honeycomb, net or tubular element has certain significance for reducing fuel pollution. The far infrared ceramic coating (containing nano titanium oxide coating) has catalytic oxidation function, generates hydroxide ions under the irradiation of sunlight (especially ultraviolet rays), can effectively remove indoor benzene, formaldehyde, sulfide, ammonia and odor substances, and has sterilization function. The popularization and application of various far infrared ceramic coatings in living rooms, public buildings and vehicles can improve the living environment of people.

Magnetic stone powder: the product is a block-shaped aggregate, and is irregular block-shaped or slightly square, and has many edges and corners. Grey black or tan, black streaks, metallic luster. Heavy, hard, irregular cross-section. Has magnetism. Smelly and tasteless. Nature and taste: salty and cold; meridian tropism: it enters liver, heart and kidney meridians; the efficacy is as follows: relieving convulsion, tranquilizing mind, suppressing hyperactive liver, subsiding yang, improving hearing and eyesight, and promoting inspiration and relieving asthma; the main treatment is as follows: can be used for treating palpitation, insomnia, dizziness, blurred vision, tinnitus, deafness, deficiency of the kidney, and asthma.

The invention has the beneficial effects that: the invention can adsorb moisture through tourmaline, magnesium oxide and magnet to carry out oxidation reaction, release heat, further realize self-heating, simultaneously coordinate with the catalytic reaction of active carbon, vermiculite and far infrared ceramic powder and improve the heating heat, further improve the self-heating effect, and the raw materials have bioelectricity, can inhibit the breeding of bacteria, and can release negative ions, warm meridians, dredge collaterals, regulate blood circulation and promote metabolism.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the following embodiments, and it should be understood that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The first embodiment is as follows:

tourmaline spontaneous heating dot matrix warm clothes and trousers, and the production process thereof comprises the following steps:

s1, weighing the raw materials according to the weight ratio;

s2, removing impurities from 40% of tourmaline, 25% of magnesium oxide, 15% of activated carbon, 10% of vermiculite, 5% of far infrared ceramic powder and 5% of magnet powder, and grinding into powder of 100 meshes for later use;

s3, mixing the powder prepared in the step S2 uniformly, and mixing the adhesive cement with the printing adhesive cement anti-sticking agent again in a ratio of 5:1 until the mixture is uniform;

s4, pouring the mixed liquid prepared in the step S3 into a printing machine, and printing the mixed liquid on the garment material in a dot matrix manner;

s5, heating the printed fabric to 165 ℃ for color fixation;

s6, storing the fabric after color fixation in a dry and sealed environment, and making clothes and trousers.

Example two:

tourmaline spontaneous heating dot matrix warm clothes and trousers, and the production process thereof comprises the following steps:

s1, weighing the raw materials according to the weight ratio;

s2, removing impurities from 48% of tourmaline, 24% of magnesium oxide, 12% of activated carbon, 6% of vermiculite, 7% of far infrared ceramic powder and 3% of magnet powder, and grinding into 80-mesh powder for later use;

s3, mixing the powder prepared in the step S2 uniformly, and mixing the adhesive cement with the printing adhesive cement anti-sticking agent again in a ratio of 5:1 until the mixture is uniform;

s4, pouring the mixed liquid prepared in the step S3 into a printing machine, and printing the mixed liquid on the garment material in a dot matrix manner;

s5, heating the printed fabric to 150 ℃ for color fixation;

s6, storing the fabric after color fixation in a dry and sealed environment, and making clothes and trousers.

Example three:

tourmaline spontaneous heating dot matrix warm clothes and trousers, and the production process thereof comprises the following steps:

s1, weighing the raw materials according to the weight ratio;

s2, removing impurities from 36% of tourmaline, 32% of magnesium oxide, 10% of activated carbon, 10% of vermiculite, 6% of far infrared ceramic powder and 6% of magnet powder, and grinding into powder of 110 meshes for later use;

s3, mixing the powder prepared in the step S2 uniformly, and mixing the adhesive cement with the printing adhesive cement anti-sticking agent again in a ratio of 5:1 until the mixture is uniform;

s4, pouring the mixed liquid prepared in the step S3 into a printing machine, and printing the mixed liquid on the garment material in a dot matrix manner;

s5, heating the printed fabric to 170 ℃ for color fixation;

s6, storing the fabric after color fixation in a dry and sealed environment, and making clothes and trousers.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed.

Claims (7)

1. Warm clothing of tuo malin spontaneous heating dot matrix, trousers, its characterized in that: the composite material consists of the following raw materials in percentage by weight: 30-48% of tourmaline; 18-36% of magnesium oxide; 8-24% of activated carbon; 4-16% of vermiculite; 2-9% of far infrared ceramic powder; 2-8% of magnetite powder.

2. The tourmaline self-heating dot matrix warm clothes and trousers according to claim 1, which is characterized in that: the composite material consists of the following raw materials in percentage by weight: 40% of tourmaline; 25% of magnesium oxide; 15% of activated carbon; 10% of vermiculite; 5% of far infrared ceramic powder; 5 percent of magnetite powder.

3. The tourmaline self-heating dot matrix warm clothes and trousers according to claim 1 or 2, which is characterized in that: the tourmaline is tourmaline.

4. A production process for producing tourmaline self-heating dot matrix warm clothes and trousers according to any one of claims 1 or 2, which is characterized in that: the method comprises the following steps:

s1, weighing the raw materials according to the weight ratio;

s2, removing impurities from tourmaline, magnesium oxide, activated carbon, vermiculite, far infrared ceramic powder and magnetite powder, and grinding into powder for later use;

s3, mixing the powder prepared in the step S2 uniformly, and mixing the adhesive cement and the printing adhesive cement anti-sticking agent again until the mixture is uniform;

s4, pouring the mixed liquid prepared in the step S3 into a printing machine, and printing the mixed liquid on the garment material in a dot matrix manner;

s5, heating and fixing the printed fabric;

s6, storing the fabric after color fixation in a dry and sealed environment, and making clothes and trousers.

5. The tourmaline self-heating dot matrix warm clothes and trousers according to claim 4, which is characterized in that: in the step S2, the mesh number of the powder is 80-120 meshes.

6. The tourmaline self-heating dot matrix warm clothes and trousers according to claim 4, which is characterized in that: in the step S3, the adhesive cement: the printing paste anti-sticking agent is 5: 1.

7. The tourmaline self-heating dot matrix warm clothes and trousers according to claim 4, which is characterized in that: in the step S5, the temperature for heating fixation is 150-.