阅读说明：本技术 一种基于石墨烯太阳能发电的石墨烯远红外电热膜背包 (Graphene far infrared electric heating film backpack based on graphene solar power generation ) 是由 王华斌 魏慧婷 于 2019-09-30 设计创作，主要内容包括：本发明公开一种基于石墨烯太阳能发电的石墨烯远红外电热膜背包,包括相连接的背包本体和背包前盖,所述背包前盖包括由内向外逐层设置的尼龙里层、塑料夹层和石墨烯太阳能发电模组,背包本体的主体为可拆卸的塑料支撑层和尼龙表层,背包本体的背面设有石墨烯远红外电热膜,背包本体的侧面设有手袋和蓄电元件,所述手袋的外层为尼龙面料,手袋内层设有石墨烯远红外电热膜,石墨烯太阳能发电模组和石墨烯远红外电热膜分别与蓄电元件通过导线连接；所述石墨烯远红外电热膜包括石墨烯远红外导电浆料涂层以及设置在石墨烯远红外导电浆料涂层两面外表面的绝缘层。本背包能够吸收太阳能,为电子产品充电、作为保暖手袋和背垫。(The invention discloses a graphene far infrared electrothermal film backpack based on graphene solar power generation, which comprises a backpack body and a backpack front cover which are connected, wherein the backpack front cover comprises a nylon inner layer, a plastic interlayer and a graphene solar power generation module which are arranged layer by layer from inside to outside; the graphene far infrared electrothermal film comprises a graphene far infrared conductive slurry coating and insulating layers arranged on the outer surfaces of two sides of the graphene far infrared conductive slurry coating. The backpack can absorb solar energy, charge electronic products and be used as a warm-keeping handbag and a back cushion.)

1. The graphene far-infrared electrothermal film backpack based on graphene solar power generation is characterized by comprising a backpack body and a backpack front cover which are connected, wherein the backpack front cover comprises a nylon inner layer, a plastic interlayer and a graphene solar power generation module which are arranged layer by layer from inside to outside; the graphene far infrared electrothermal film comprises a graphene far infrared conductive slurry coating and insulating layers arranged on the outer surfaces of two sides of the graphene far infrared conductive slurry coating.

2. The graphene far infrared electrothermal film backpack based on graphene solar power generation as claimed in claim 1, wherein the thickness of the graphene far infrared conductive paste coating is 0.1-0.3 mm, and the thickness of the insulating layer is 0.3-0.6 mm.

3. The graphene far infrared electrothermal film backpack based on graphene solar power generation as claimed in claim 1, wherein the graphene far infrared electrothermal film further comprises a waterproof layer, the waterproof layer is arranged on the outer surface of the insulating layer, and the thickness of the waterproof layer is 0.4-0.6 mm.

4. The graphene far infrared electrothermal film backpack based on graphene solar power generation as claimed in claim 1, wherein a sponge layer and a breathable layer for buffering are further arranged on the outer layer of the graphene far infrared electrothermal film on the back surface of the backpack body.

5. The graphene far infrared electrothermal film backpack based on graphene solar power generation as claimed in claim 1, wherein a USB interface and a switch are further arranged on the power storage element.

6. The graphene far infrared electrothermal film backpack based on graphene solar power generation as claimed in claim 1, wherein an elastic band is arranged between the backpack body and the backpack front cover for connection.

7. The graphene far infrared electrothermal film backpack based on graphene solar power generation as claimed in claim 5, wherein the USB interface is connected with an electronic product charging wire, and a through hole for the electronic product charging wire to pass through is formed in a front cover of the backpack.

8. The graphene far infrared electric heating film backpack based on graphene solar power generation as claimed in claim 1, characterized in that a warm-keeping layer is further arranged on the outer layer of the nylon fabric of the handbag.

9. The graphene far-infrared electrothermal film backpack based on graphene solar power generation as claimed in claim 1, wherein the graphene far-infrared electrothermal film is further connected with a temperature sensor, and the temperature sensor is electrically connected with an electricity storage element.

Technical Field

The invention relates to the technical field of application of graphene solar energy and a graphene far infrared electric heating film, in particular to a graphene far infrared electric heating film backpack based on graphene solar energy power generation.

Background

With the ever-increasing level of life and consumption of people, various backpacks become indispensable articles for daily use of people, and the backpacks occupy most of market share in the aspect of clothes. At present, the commercial backpack and the leisure backpack are widely used in the market, and the designs in the aspects of theft prevention, water prevention, ventilation, pressure reduction and the like are emphasized. When the user goes out, the mobile phone is not powered, so that the charger becomes a necessity of most people, the charger can only charge the electronic product for a certain number of times due to limited capacitance, and the user needs to charge the charger frequently after using the charger. In winter, the hands and the face are exposed and can directly contact with cold air, and the hands with relatively far centrifugal dirt can feel cold due to unsmooth blood pressure circulation, so that the heat preservation of the face and the hands is very important. Current hand instrument that keeps warm mainly is gloves and hand warmer, and gloves can let the finger become dumb, and hand warmer makes the hand occupy, and will frequently charge, and it is inconvenient to use. The problem that people needing to sit for a long time, such as white collars in offices, drivers, students and the like, bend over and hump back unconsciously to cause spinal soreness and even spinal strain easily when sitting, the existing back cushion product is used in offices or automobiles, the biggest problem is that the back cushion is not portable, and the back cushion cannot be used in other scenes.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provides a graphene far infrared electrothermal film backpack based on graphene solar power generation.

The technical scheme of the invention is as follows: a graphene far infrared electrothermal film backpack based on graphene solar power generation comprises a backpack body and a backpack front cover which are connected, wherein the backpack front cover comprises a nylon inner layer, a plastic interlayer and a graphene solar power generation module which are arranged layer by layer from inside to outside, the main body of the backpack body is a detachable plastic supporting layer and a nylon surface layer, a graphene far infrared electrothermal film is arranged on the back surface of the backpack body, a handbag and a power storage element are arranged on the side surface of the backpack body, the outer layer of the handbag is made of a nylon fabric, the inner layer of the handbag is provided with the graphene far infrared electrothermal film, and the graphene solar power generation module and the graphene far infrared electrothermal film are respectively connected with the power storage element through wires; the graphene far infrared electrothermal film comprises a graphene far infrared conductive slurry coating and insulating layers arranged on the outer surfaces of two sides of the graphene far infrared conductive slurry coating.

The thickness of the graphene far infrared conductive paste coating is 0.1-0.3 mm, and the thickness of the insulating layer is 0.3-0.6 mm.

The graphene far infrared electrothermal film further comprises a waterproof layer, the waterproof layer is arranged on the outer surface of the insulating layer, and the thickness of the waterproof layer is 0.4-0.6 mm.

The outer layer of the graphene far infrared electric heating film on the back surface of the backpack body is also provided with a sponge layer and a breathable layer for buffering.

And the electric storage element is also provided with a USB interface and a switch.

And an elastic belt for connection is arranged between the backpack body and the backpack front cover.

USB interface connection electronic product charging wire is equipped with the through-hole that is used for the electronic product charging wire to pass on the knapsack protecgulum.

The outer layer of the nylon fabric of the handbag is also provided with a warm-keeping layer.

The graphene far infrared electrothermal film is further connected with a temperature sensor, and the temperature sensor is electrically connected with the power storage element.

The principle of the invention is as follows: the graphene solar power generation module can absorb all visible light such as sunlight and indoor lamplight, can generate power under weak light, and avoids the defect that the conventional photovoltaic product can generate power only by absorbing direct sunlight. The graphene solar power generation module can be used indoors, indoor light is collected to enable light energy to be converted into electric energy, and the efficiency and the stability of organic solar energy are improved due to the addition of the graphene. The graphene organic solar optoelectronic device has the advantages of full-spectrum absorption, foldable curling, light-permeable and color-changing functions, lightness, thinness, cheapness and the like, and corresponding patterns can be designed according to needs and controlled through control buttons.

The graphene far infrared electrothermal film has the advantages of ultralow safety voltage, far infrared physiotherapy, rapid heating, uniform heating and the like. The far infrared ray has strong penetrating power and radiation power, has obvious temperature control effect and resonance effect, and is easy to be absorbed by object and converted into internal energy of object. After the far infrared is absorbed by human body, the resonance of internal water molecules can be produced, the water molecules can be activated, the binding force between the molecules can be enhanced, so that the biological macromolecules of protein and the like can be activated, the biological cells are in the highest vibration energy level, because the biological cells produce resonance effect, the far infrared heat energy can be transferred to the subcutaneous deeper part of the human body, the temperature of the lower deep layer rises, the generated heat is emitted from inside to outside, the capillary vessels can be expanded, the blood circulation is promoted, the metabolism between tissues is enhanced, the regeneration capacity of the tissues is increased, the immunity of the body is improved, the mental abnormal excitation state is regulated, and the medical health-care effect is achieved.

The knapsack is connected the electric power storage component and is carried out automatic electric power storage through the electricity generation of the graphite alkene solar energy power generation module on the protecgulum, sets for the temperature on temperature sensor, avoids the high temperature to cause the low temperature scald, and the switch of opening the electric power storage component can make the graphite alkene far infrared heating film of arranging knapsack back and handbag in generate heat, and the electric power storage component is equipped with the USB socket simultaneously, can be used for charging of outside electronic products such as cell-phones.

Compared with the prior art, the invention has the following beneficial effects:

according to the invention, the graphene solar power generation module is adopted, and graphene solar materials can absorb light energy indoors and outdoors and convert the light energy into electric energy for storage, so that the electric energy can be used for charging external electronic products; the hand bags are arranged on the two sides of the backpack body, hands can be placed in the backpack hand bags for keeping warm when a user goes out in winter, the graphene far infrared heating films are arranged in the hand bags, electric energy is supplied to the graphene far infrared heating films through the graphene solar power generation modules, and heat energy can be provided for the hands of the user for keeping warm without charging; the back of knapsack still is equipped with graphite alkene far infrared heating film, and the position at knapsack laminating back can generate heat, can alleviate the problem of modern people because the waist back is aching pain that sits for a long time or the position of sitting harmfully leads to, can portably use conveniently simultaneously, lets the user can generate heat the physiotherapy anytime and alleviate spinal pressure in scenes such as office, home, public transport, classroom, has solved present back of the body and has filled up the product not portable, at the problem that other scenes can not use.

Drawings

Fig. 1 is a schematic structural diagram of a graphene far infrared electrothermal film backpack based on graphene solar power generation.

Fig. 2 is an exploded view of the graphene far infrared electrothermal film backpack based on graphene solar power generation.

Fig. 3 is a side view of a graphene far infrared electric heating film backpack based on graphene solar power generation.

The backpack comprises a backpack body 1, a backpack front cover 2, a nylon lining 3, a plastic interlayer 4, a graphene solar power generation module 5, a plastic supporting layer 6, a nylon surface layer 7, a nylon fabric 8 for a handbag, an electricity storage element 9, a sponge layer 10, a breathable layer 11, an elastic belt 12, a through hole 13, a back strap 14, a graphene far infrared electrothermal film 15 for the backpack body, and a graphene far infrared electrothermal film 16 for the handbag, wherein the backpack is shown in the figure.

Detailed Description

The present invention will be described in further detail with reference to examples, but the embodiments of the present invention are not limited thereto.