CN108969883B

CN108969883B - Manufacturing method and application of graphene bioelectricity health chip

Info

Publication number: CN108969883B
Application number: CN201710429748.7A
Authority: CN
Inventors: 李宇光
Original assignee: Individual
Current assignee: Individual
Priority date: 2017-05-31
Filing date: 2017-05-31
Publication date: 2021-12-28
Anticipated expiration: 2037-05-31
Also published as: CN108969883A

Abstract

The invention discloses a graphene bioelectricity health chip which is structurally characterized by being a flaky layered object and consisting of a functional A layer, a functional B layer, a functional C layer and a functional D layer from top to bottom in sequence; the functional layer A is functional non-woven fabric made of tourmaline materials, and the functional layer B is a bioelectricity exciting sheet made of graphene materials; the manufacturing method of the functional layer C is the same as that of the functional layer A; the manufacturing method of the function D layer is the same as that of the function B layer; then they are bonded together in order to form a biological chip with the functions of storing and releasing biological current, and can produce composite bioelectricity, when it is used, it can be placed on the focus position, and can be used for conveying and absorbing biological current into human body, and can regulate the biological current balance of human body, and can obtain the functions of resisting disease, health-care and nursing.

Description

Manufacturing method and application of graphene bioelectricity health chip

Technical Field

The invention belongs to the technical field of bioelectricity medicine, and particularly relates to a manufacturing method and application of a graphene bioelectricity health chip.

Background

As is well known, the earth on which human beings rely to live is a negative star, and has a positively charged atmospheric ionosphere about 100 km from the earth, and forms a constant electric field, i.e. a natural electric field, with the ground. The direction of the electric field is vertically directed to the ground, and the charges in the air flow to the ground through the human body. The natural electric field can generate good physiological stimulation to human beings and various living beings on the earth. Therefore, the health and life of human beings also depend on the amount of electricity charged to human bodies, and healthy people have 80% of negative electricity and 20% of positive electricity, namely, the balance between yin and yang. In resting living cells, the intracellular potential is constantly negative (-), the extracellular potential is positive (+), and the resting potential of human cells is about-90 mv (millivolts). The human body is a natural biological battery consisting of approximately 6 trillion charged cells. Each cell is equivalent to a capacitor, and positive electricity and negative electricity (internal negative and external positive) exist in the capacitor, so that the cell membrane potential is called; the electricity is the source of life, and is a symbolic sign of vitality, namely human bioelectricity.

Any subtle activity of the human body is related to bioelectricity. External stimuli, heart beats, muscle contractions, and brain activity are accompanied by the generation and changes of bioelectricity. The bioelectrical changes of organs such as heart, muscle, brain and the like of a normal human are regular, and each second of the human life causes tens of coulombs or even hundreds of coulombs to flow in the human body, and the German Bell professor indicates that: the basic activity of life is essentially electronic transfer, and if the electronic transfer is stopped, the life of a person is ended. The supply and consumption of electrons should be balanced, and if the consumption is greater than the supply, the human body tends to age or develop diseases: healthy body and weak body due to deficiency of electricity. Due to the essence of 'electric life' of the human body, the human body is determined to be required to continuously supplement bioelectric energy. The research of modern life science tells that the essence of human life movement is the essence of 'electricity life', and electricity of dozens of coulombs or even hundreds of coulombs flows in the human body every second of life, which is called human body bioelectric current. During life, the consumption and supply of electrons in the body should be equal in quantity so as to maintain the normal physiological functions of the human body. If the power supply and discharge are unbalanced, the function of each tissue and organ of the human body is disturbed, which is an important reason for various diseases of the human body. Scientists have long studied to believe that: generally, people should continuously charge the body from the age of more than 20 years old, which is very important for improving health, resisting diseases and delaying aging. At present, a plurality of methods for supplementing bioelectricity exist, and a new product for regulating the bioelectricity of a human body by adopting a graphene and tourmaline composite method is not available;

disclosure of Invention

The invention aims to provide a method for manufacturing a graphene bioelectricity health chip and application thereof aiming at the defects; the bioelectricity-stimulating sheet is characterized in that a capacitor capable of storing and releasing bioelectricity is formed by functional non-woven fabric made of tourmaline materials and a bioelectricity-stimulating sheet made of graphene materials; when in use, the biological current is transmitted and absorbed into a human body to adjust the biological current balance of the human body, thereby achieving the functions of treating and preventing diseases, and protecting health and nursing; convenient use, obvious effect, simple manufacturing process, wide application and the like;

in order to achieve the purpose, the technical scheme adopted by the invention is as follows: a graphene bioelectricity health chip is structurally characterized by being a sheet-shaped layered object and consisting of a functional layer A, a functional layer B, a functional layer C and a functional layer D from top to bottom in sequence; the functional layer A is functional non-woven fabric made of tourmaline materials, and the functional layer B is a bioelectricity exciting sheet made of graphene materials; the manufacturing method of the functional layer C is the same as that of the functional layer A; the manufacturing method of the function D layer is the same as that of the function B layer; then bonding them together in sequence to obtain the graphene bioelectricity health chip; the preparation method comprises the following steps (by weight portion):

(1) and manufacturing a functional A layer: firstly, taking 5-20 parts of tourmaline superfine powder; 5-15 parts of milk white glue; 50-80 parts of deionized water; putting into a homogenizer, stirring for 20-30 minutes to obtain functional emulsion, and uniformly coating on the surface layer of non-woven fabric with the thickness of 20-40um, wherein the surface layer is 30-40 g/m by using a known roller coating method; drying at the temperature of 100-110 ℃ to prepare a functional layer A;

(2) and a functional B layer, and manufacturing the bioelectricity activated sheet: taking 'high-conductivity thin-layer graphene micron sheet aqueous conductive paste' (a product produced by Suzhou Geruifeng nanometer technology Co., Ltd.), printing the prepared functional non-woven fabric with a 'bow' -shaped pattern by adopting a silk screen printing method, wherein the size of the pattern is smaller than that of the functional non-woven fabric, and the pattern is arranged in the middle to obtain a bioelectricity active sheet, namely a functional layer B;

(3) the manufacturing method of the functional C layer is the same as that of the functional A layer;

(4) the manufacturing method of the functional D layer is the same as that of the functional B layer;

(5) and manufacturing the graphene bioelectricity health chip: the prepared functional A layer, the prepared functional B layer, the prepared functional C layer and the prepared functional D layer are bonded and compounded together by glue according to the manufacturing sequence, and then finished products with various specifications are manufactured according to the design requirements of the products; thus obtaining the graphene bioelectricity health chip.

The functional layer A is tourmaline functional non-woven fabric, the gram weight is 30-40 g/square meter, tourmaline powder with the fineness of 0.5 micron is contained, tourmaline is called charged stone, the functional layer A has the characteristics of direct current electrostatic type, weak current of a bioelectrode, permanently and continuously generating negative static electricity, and from the perspective of bioengineering, certainly, what is a person can live because of what? In effect, is supported against a weak bioelectric current. Then, to what extent this bioelectric current is weak? The current is only about 0.06mA through repeated measurement of scientists. The digital residence is amazing similar to the weak current generated by the natural ore tourmaline, is not accidental coincidence, and is a benefit given to human beings by universe and nature; the product adopts tourmaline to provide bioelectricity for human body, which is a necessary choice; since the tourmaline's current matches with the human body's bioelectric current, it inevitably causes bioelectric biological effects in the human body, such as promotion of metabolism, regulation of the central and autonomic nervous systems, regulation of cerebral cortical functions, and beneficial improvement of cardiac rhythm and blood circulation, especially microcirculation. For cell membranes, regulation of body fluids inside and outside cells, especially exchange of ions, and energy exchange have good effects.

The functional B layer is a bioelectricity active sheet, and is printed into a graphene electronic tag antenna shape by selecting graphite conductive coating, so that the characteristics of graphene can be exerted, the graphene electronic tag antenna has high electron mobility at normal temperature, internal electrons can move back and forth when being irradiated by electromagnetic waves under proper carrier density to form oscillation current, however, the bioelectricity can be continuously generated by tourmaline because the tourmaline can be activated by external energy to exert the characteristics, the result of the coordination of the bioelectricity and the carrier density can be increased, a chargeable and dischargeable capacitor is formed at the same time, and the redundant charges in a body and the charges lacking of water in the body can be absorbed, so that the health effect is achieved;

the graphene bioelectricity health chip is designed by adopting functional non-woven fabric manufactured by the characteristic that tourmaline can generate bioelectricity, and printing the functional non-woven fabric, the bioelectricity activation sheet and the bioelectricity activation sheet into a conductive bioelectricity activation sheet in a graphene electronic tag shape in the sequence of the functional non-woven fabric, the bioelectricity activation sheet, the functional non-woven fabric and the bioelectricity activation sheet; thus, according to the manufacturing principle of the capacitor: (one or more pairs of closely spaced conductors insulated from each other form a capacitor); the graphene electronic tag-shaped conductive material is printed on the insulating material of the tourmaline functional non-woven fabric, and the conductive material and the insulating material are laminated together to form a capacitor, so that the capacitor has a charging and discharging function when contacting a human body, can continuously receive and release bioelectric current from the human body, is used for adjusting the balance of the bioelectric current of the human body, plays a role in preventing and curing diseases, and is the action principle of the bioelectric health chip;

the high-conductivity thin-layer graphene micron sheet water-based conductive paste has the characteristics of no toxicity, no pungent smell, no corrosiveness and the like, can be stable, has good coating and printing adaptability, small resistance, excellent conductivity, strong adhesion fastness, fast drying and excellent screen printing performance, and can be used for special printing, 3D printing and conductive ink in the electronic printing industry, such as screen printing and offset printing, for producing radio frequency identification RFID;

the invention has the advantages that:

1. the technology is purely a physical therapy method, and has the advantages of no injection, no medicine taking, external treatment of internal diseases, no toxic or side effect, simple structure, low cost, one-time use and convenient treatment.

2. The combination of the function A layer and the function B layer in the bioelectricity health chip has the characteristics of generating bioelectricity, playing a role in layer-by-layer synergy, easily and quickly forming potential difference, realizing quick charge and discharge and improving curative effect.

3. The bioelectricity health chip can be applied to various products, and has wide application such as: various pain point plasters, women sanitary towels, sanitary nursing pads, breast nursing products and the like;

4. the graphene bioelectricity health chip has wide adaptation diseases to a nervous system: pain, deafness, psychosis, epilepsy, insomnia, depression, dementia in children, apoplexy sequelae, autism, etc.; the muscular system: paralysis, muscle weakness, muscle atrophy, and the like; smooth muscle: dyspepsia, nocturia, hypertension, and the like; glands: endocrine problems, cancer, and the like; the hematopoietic system: blood diseases; the immune system: lupus erythematosus and the like have good treatment effects;

drawings

FIG. 1 is a schematic structural diagram of a bioelectricity receptor chip provided by the present invention;

FIG. 2 is a schematic cross-sectional view of the bioelectricity receptor chip provided by the present invention;

the invention will be described in further detail with reference to the drawings and the embodiments thereof

Detailed Description

As shown in fig. 1 and 2, a graphene bioelectricity receptor chip is structurally characterized by being a sheet-shaped layered object, which is composed of a functional a layer 1, a functional B layer 2, a functional C layer 3 and a functional D layer 4 in sequence from top to bottom; the functional layer A1 is a functional non-woven fabric made of tourmaline materials, and the functional layer B is a bioelectricity activated sheet made of graphene materials; the functional C layer 3 is the same as the functional A layer 1 in the manufacturing method; the functional D layer 4 and the functional B layer 2 are manufactured in the same way; and then the materials are bonded together in sequence, and the specific preparation method comprises the following steps (by weight):

(1) and manufacturing a functional A layer 1: firstly, 5-20 minutes of tourmaline superfine powder is taken; 5-15 minutes of milk white glue; 50-80 minutes of deionized water; putting into a homogenizer, stirring for 20-30 minutes to obtain functional emulsion, and uniformly coating on the surface layer of non-woven fabric with the thickness of 20-40um, wherein the surface layer is 30-40 g/m by using a known roller coating method; drying at 100 ℃ to prepare a functional A layer 1;

(2) and a functional B layer 2: taking 'high-conductivity thin-layer graphene micron sheet water-based conductive paste' (a product produced by Suzhou Geruifeng nanometer technology Co., Ltd.), printing the prepared functional non-woven fabric with a 'bow' -shaped pattern by adopting a silk screen printing method, wherein the size of the pattern is smaller than that of the functional non-woven fabric, and the pattern is arranged in the middle to prepare a bioelectricity activated sheet, namely a functional B layer 2;

(3) the manufacturing method of the functional C layer 3 is the same as that of the functional A layer 1;

(4) the manufacturing method of the functional D layer 4 is the same as that of the functional B layer 2;

(5) and manufacturing the graphene bioelectricity health chip: the prepared functional A layer 1, the prepared functional B layer 2, the prepared functional C layer 3 and the prepared functional D layer 4 are bonded and compounded together by glue according to the manufacturing sequence, and then finished products with various specifications are manufactured according to the design requirements of the products; thus obtaining the graphene bioelectricity health chip.

Claims

1. A method for manufacturing a graphene bioelectricity health chip is characterized in that the graphene bioelectricity health chip is a sheet-shaped layered object and consists of a functional non-woven fabric and a bioelectricity activation sheet, wherein the functional non-woven fabric, the bioelectricity activation sheet, the functional non-woven fabric and the bioelectricity activation sheet are sequentially superposed and bonded together;

wherein, the functional non-woven fabric is made of tourmaline materials, and the bioelectricity activation sheet is made of graphene materials;

the tourmaline material comprises 5-20 parts of tourmaline superfine powder and 5-15 parts of milk white glue; 50-80 parts of deionized water;

the preparation method of the functional non-woven fabric comprises the following steps: putting the tourmaline materials into a homogenizer together, fully stirring for 20-30 minutes to prepare functional emulsion, and then uniformly coating the functional emulsion on a surface layer of non-woven fabric with the thickness of 20-40um, wherein the surface layer is 30-40 g/square meter by adopting a roller coating method; drying at 100 deg.C to obtain functional non-woven fabric;

the preparation method of the bioelectricity activation sheet comprises the following steps: arranging a graphene material on the functional non-woven fabric by adopting a screen printing method to form a bioelectricity activated sheet on the functional non-woven fabric;

the graphene material has electrical conductivity.