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Novel fire protection pillow and manufacturing method thereof

A manufacturing method and technology of fire-resistant packs, applied in fire rescue, medical science, dentistry, etc., can solve problems such as poor heat insulation effect, non-compliance with fire protection requirements, and heat change

Inactive Publication Date: 2014-10-01
天津安盛达防火材料有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

The original fireproof materials are refractory bricks, slag wool, ceramic wool, etc., and there are some defects: first, the heat insulation effect is poor, and it is found that the upper layer of the material surface becomes hot quickly during the test; The expansion force generated by the expansion type of the important materials composed of it will continuously disperse the module into fine particles, and finally it will be called ash powder after baking, and the module will disintegrate, which does not meet the fire protection requirements.

Method used

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  • Novel fire protection pillow and manufacturing method thereof
  • Novel fire protection pillow and manufacturing method thereof
  • Novel fire protection pillow and manufacturing method thereof

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0049] A new type of fire-resistant package in this embodiment, comprising a fire-resistant packaging bag and a flame-retardant refractory material placed in the fire-resistant packaging bag. Oxygen glass cloth is woven, and the outer layer is woven by fire-resistant roller shutter fiber cloth. The flame-retardant refractory material includes expanded lightweight materials, flame retardants and water-based adhesives, wherein the expanded lightweight materials are perlite, Described water-based adhesive is styrene-acrylic acid emulsion, and the percentage that each material weight accounts for is:

[0050] Perlite 70%

[0051] Flame retardant 20%

[0052] Styrene-Acrylic Emulsion 10%

[0053] Described flame retardant, comprises the percentage that every kind of material weight accounts for:

[0054] Ammonium polyphosphate 10%

[0055] Pentaerythritol 10%

[0056] The manufacture method of the novel fire retardant bag of the present embodiment, comprises the following step...

Embodiment 2

[0067] A new type of fire-resistant package in this embodiment, comprising a fire-resistant packaging bag and a flame-retardant refractory material placed in the fire-resistant packaging bag. Oxygen glass cloth is woven, and the outer layer is woven by fire-resistant roller shutter fiber cloth. The flame-retardant refractory material includes expanded lightweight materials, flame retardants and water-based adhesives, wherein the expanded lightweight materials are perlite, Described water-based adhesive is styrene-acrylic acid emulsion, and the percentage that each material weight accounts for is:

[0068] Perlite 69%

[0069] Flame retardant 22%

[0070] Styrene-Acrylic Emulsion 9%

[0071] Described flame retardant, comprises the percentage that every kind of material weight accounts for:

[0072] Ammonium polyphosphate 12%

[0073] Pentaerythritol 10%

[0074] The preparation method is the same as in Example 1.

[0075] result:

[0076]

Embodiment 3

[0078] A new type of fire-resistant package in this embodiment, comprising a fire-resistant packaging bag and a flame-retardant refractory material placed in the fire-resistant packaging bag. Oxygen glass cloth is woven, and the outer layer is woven by fire-resistant roller shutter fiber cloth. The flame-retardant refractory material includes expanded lightweight materials, flame retardants and water-based adhesives, wherein the expanded lightweight materials are perlite, Described water-based adhesive is styrene-acrylic acid emulsion, and the percentage that each material weight accounts for is:

[0079] Perlite 73%

[0080] Flame retardant 18%

[0081] Styrene-Acrylic Emulsion 9%

[0082] Described flame retardant, comprises the percentage that every kind of material weight accounts for:

[0083] Ammonium polyphosphate 10%

[0084] Pentaerythritol 8%

[0085] The preparation method is the same as in Example 1.

[0086] result:

[0087]

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Abstract

The invention provides a novel fire protection pillow which comprises a fire protection packaging bag and a flame-retardant and fireproof material arranged in the fire protection packaging bag, wherein the fire protection packaging bag consists of an inner layer and an outer layer; the inner layer is formed by weaving high-silica glass cloth, and the outer layer is formed by weaving fireproof shutter fiber cloth; the flame-retardant and fireproof material comprises the components in percentage by weight: 60-80 percent of an expanded light-weight material, 16-24 percent of a flame retardant and 9-11 percent of an aqueous adhesive; the expanded light-weight material is perlite; the aqueous adhesive is styrene-crylic acid emulsion. The invention also provides a manufacturing method for the novel fire protection pillow. The novel fire protection pillow has the beneficial effects that no toxic gas is generated during a fire, and the smoke flying and the smoke falling are prevented; the whole novel fire protection pillow is made of the non-toxic raw materials, cannot release the toxic gas during the fire, and is environmentally-friendly.

Description

technical field [0001] The invention belongs to the technical field of fireproofing materials, and in particular relates to a novel fireproofing bag and a manufacturing method. Background technique [0002] With the rapid development of my country's national economy and the intensification of modernization, energy problems have become increasingly prominent, and the production and use of electric energy have also increased significantly. Therefore, the construction of electric power production enterprises has also increased. The need for plugging is also increasing. The original fireproof materials are refractory bricks, slag wool, ceramic wool, etc., and there are some defects: first, the heat insulation effect is poor, and it is found that the upper layer of the material surface becomes hot quickly during the test; If it is carried out, the expansion force generated by the expansion type of its important materials will continuously disperse the module into fine particles...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): A62C2/00C04B26/06
Inventor 郭国胜
Owner 天津安盛达防火材料有限公司