Nano-wet wipe with rain, fog, and water scale proof functions

Abstract

The invention relates to a nano-wet wipe with rain, fog, and water scale proof functions. The nano-wet wipe includes an inner non-woven fabric substrate and an outer non-woven fabric substrate. A water barrier film is disposed at the upper end of the inner non-woven fabric substrate in the wet wipe, so that the upper and lower end faces of the wet wipe becomes two independently usable individuals,when water spots on glass need to be wiped, the wet wipe end face with the outer non-woven fabric substrate is employed to wipe the glass, the cooperative use of inner absorbent cotton and outer absorbent cotton and the effect of the absorbent cotton are conducive to improving the water absorption capacity of the outer non-woven fabric substrate, thus realizing rapid water absorption of the wet wipe, at the end of wiping, the other end face of the wet wipe is utilized to wipe the glass, after contact wiping of an efficient rain and fog proof nano-coating on the other end face of the wet wipeto the glass, the surface tension of water molecules is changed, and a very thin water film is formed on the glass surface, thereby realizing the rainwater and fog proof functions of the glass, afterwiping, rainwater does not stay on the glass surface easily, so that dust cannot be adhered easily, and water scale can be hardly produced.

Description

technical field [0001] The invention relates to the field of wet wipes, and more specifically relates to a nano wet wipe with functions of preventing rain, fog and scale. Background technique [0002] When the car is driving on a rainy day, there will be rainwater on the surface of the car glass, especially the rearview mirror and side window glass without wipers, which will affect the line of sight because of the raindrops, causing a great safety hazard. In an environment with large temperature difference, low temperature and high humidity, a layer of small water droplets will condense on the surface of the car glass to form fog, which will also cause unclear vision and affect the safe driving of the car. When running into this situation, the driver often just uses the wiper to wipe the front windshield glass, or uses a dry rag to wipe the glass on both sides to obtain a temporary clear view. Apply a layer of detergent to obtain a certain anti-rain and anti-fog effect, but...

AI Technical Summary

Problems solved by technology

[0002] When the car is driving on a rainy day, there will be rainwater on the surface of the car glass, especially the rearview mirror and side window glass without wipers, which will affect the line of sight because of the raindrops, causing a great safety hazard. In an environment with large temperature difference, low temperature and high humidity, a layer of small water droplets will condense on the surface of the car glass, forming fog, which will also cause blurred vision and affect the safe driving of the car

When running into this situation, the driver often just uses the wiper to wipe the front windshield glass, or uses a dry rag to wipe the glass on both sides to obtain a temporary clear view. Apply a layer of detergent to obtain a certain anti-rain and anti-fog effect, but this method will reduce the transparency of the glass to a certain extent, produce glare, and increase safety hazards, and the anti-rain and anti-fog effect is not good

[0003] Moreover, after the weather is fine, raindrops stay on the glass surface, absorbing dust, pollen, and oil in the air, which will form scale, which will affect the sight of the glass in addition to cleaning problems.

[0004] In real life, wet wipes are often used to wipe the car glass, but the two sides of the wet wipes in the prior art are often highly permeable. After one side is wiped, stains and water stains will soon penetrate to the other side. As a result, it is difficult to use both sides of the wet wipes. At the same time, ordinary wet wipes in the prior art are also difficult to achieve the functions of defogging and rainproof. After wiping the glass, it is often only possible to achieve a short-term clear view of the glass. The performance is similar to that of a wet towel. In addition, the existing wet wipes will completely infiltrate the rainwater immediately after wiping the glass. If the wiping area is large, it is often necessary to replace multiple wet wipes for wiping, and its water absorption capacity needs to be improved.

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