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Anti-haze individual-breathing protective device using anti-haze combination

A technology of respiratory protection device and protection device, applied in the direction of respiratory protection container, breathing mask, life-saving equipment, etc., which can solve the problems of human health hazards, serious environmental and climate problems, and no improvement countermeasures, etc., and achieve the effect of non-toxic use

Inactive Publication Date: 2017-09-19
江丰明 +1
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0011] In view of the above, it can be seen that all current personal respiratory protection devices have serious disadvantages for haze substances
However, the frequency of smog is increasing day by day, and there is no improvement in the short term. This has caused serious problems in the environment and climate, and has also led to possible harm to human health.

Method used

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  • Anti-haze individual-breathing protective device using anti-haze combination
  • Anti-haze individual-breathing protective device using anti-haze combination
  • Anti-haze individual-breathing protective device using anti-haze combination

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0049]

[0050] The anti-haze composition of the above-mentioned Example 1 was diluted with distilled water to form a 1% by weight aqueous solution of the anti-haze composition. Using an appropriate atomizing spraying device, the aqueous solution of the anti-haze composition is sprayed on the inner and outer layers of the personal test mask, and then sprayed with pure water on the inner and outer layers of the test mask. , compare the color depth of the two, as a control test for the anti-haze results. It can be seen from the implementation results (see Figure 4A and Figure 4B ,in Figure 4A It is the outer layer of the mask, Figure 4B is the inner layer of the mask):

[0051]

[0052]

[0053] Figure 4A , 4B Among them, compared with the mask A ( Figure 4A above and Figure 4B Above), personal respiratory protection mask B only after spraying with pure water atomization ( Figure 4A Below and Figure 4B Figure below), after spraying smoke, the inner la...

Embodiment 2

[0055]

[0056] The anti-haze composition of the above-mentioned embodiment 2 was diluted with distilled water to form a 1% by weight aqueous solution of the anti-haze composition. Using an appropriate atomizing spraying device, the aqueous solution of the anti-haze composition is sprayed on the inner and outer layers of the personal test mask, and then atomized and sprayed with pure water on the inside and outside of the outer layer of the test mask. Compare the color depth of the two as a control test for anti-haze results. It can be seen from the implementation results (see Figure 5A and Figure 5B ,in Figure 5A It is the outer layer of the mask, Figure 5B is the inner layer of the mask):

[0057]

[0058] Figure 5A , 5B Among them, compared with the mask A (reference Figure 5A Above and Figure 5B Above), personal respiratory protection mask B only after pure water atomization spraying treatment (refer to Figure 5A Below and Figure 5B Below) after sp...

Embodiment 3

[0060] The anti-haze composition of the above-mentioned Example 2 was diluted with distilled water to form a 1% aqueous solution of the anti-haze composition by weight. Soak the mask in this 1% aqueous solution for about 5 seconds, immediately press off the dripping liquid, and then undergo a stable drying process at room temperature. Before the control test, spray about 2ml of pure water on the inner and outer layers of the treated mask, and then spray the pure water on the inner and outer layers of the untreated mask. Compare the color depth of the two after spraying smoke, and use it as a control test for anti-haze results without additive treatment. It can be seen from the implementation results (see Figure 6A and Figure 6B ,in Figure 6A It is the outer layer of the mask, Figure 6B is the inner layer of the mask):

[0061]

[0062] Figure 6A , 6B Among them, compared with the mask A (reference Figure 6A Above and Figure 6B Above), personal respiratory pr...

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Abstract

An anti-haze individual-breathing protective device is disclosed. The anti-haze individual-breathing protective device is manufactured by adding an anti-haze combination which includes alkyl sulfosuccinate and other humectants. The anti-haze combination is added and injected into the anti-haze individual-breathing protective device at an appropriate dose and in an appropriate implementation mode so that the adsorptivity and the penetrativity of haze substances can be reduced and the protective performance of the individual-breathing protective device can be enhanced, thus the purpose of individual-breathing protection is achieved, and the health problem caused by the haze substances on the ground and in the air and the physical and mental harm likely caused by the health problem are alleviated. According to the anti-haze individual-breathing protective device, any heavy-metal material is not contained, moreover the anti-haze combination is biodegradable, and the anti-haze individual-breathing protective device has the characteristics of being nonhazardous to a human body and the environment and convenient to use.

Description

technical field [0001] The invention relates to an anti-haze personal breathing protection device using an anti-haze composition, and also relates to a protection method for preventing haze personal breathing. Background technique [0002] Under the pressure of modern urban construction, traffic and industrial development, the smog in the air has become a serious environmental protection and health problem, and the personal respiratory protection device, especially the personal respiratory protection device for anti-smog, has become a kind of public urgent needs. [0003] The main components of smog are sulfur oxides, nitrogen oxides, and inhalable hydrophilic and hydrophobic particles. Among them, fine suspended microparticles (Particulate Matter, abbreviated as "PM") are the chief culprit that aggravates the pollution of haze weather. There are many traditional personal respiratory protection methods for reducing haze substances in the air. Various personal respiratory p...

Claims

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Application Information

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IPC IPC(8): A62B18/02
CPCA62B18/02
Inventor 江丰明
Owner 江丰明