Heat-storage energy-saving sound-insulation building material

A building material, heat storage technology, applied in applications, household appliances, ceramic products, etc., can solve problems such as difficulty, easy slippage, complicated construction, etc., to improve product efficiency, good energy storage, and reduce air pollution.

Pending Publication Date: 2021-03-12
刘丽荣
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0002] As we all know, the materials used in the existing building walls and the energy-saving and thermal insulation systems for maintaining the walls are relatively simple. A layer of 110mm-thick benzene board, 80mm-thick foamed polyurethane board or extruded board, although they can play a certain role in heat preservation, but they are flammable, toxic, short service life, complicated construction, easy to slip, and bond strength various problems
At present, it is difficult to achieve the target of 65% energy saving. Even if it can be achieved, the construction is cumbersome and difficult, and the thickness above 110mm will bring great difficulties to the exterior decoration.

Method used

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Examples

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Effect test

example 1

[0024] Take 20 kilograms of ceramsite, 10 kilograms of perlite, 15 kilograms of blast furnace slag, 5 kilograms of fly ash, 3 kilograms of solar energy storage materials (patent No. 201110278867.X), 3 kilograms of anhydrite, 2 kilograms of antioxidants, and 0.5 kg of split fiber, 4 kg of Wacker rubber powder, 0.2 kg of thixotropic agent, 0.5 kg of sodium silicate, 2 kg of hydroxypropyl methylcellulose, 0.001 kg of sodium citrate, and 0.001 kg of urotropine were added to the mixture In the trough, it is fully mixed through cyclone separation, and then it becomes the finished heat storage, energy saving and sound insulation building material of the present invention.

[0025] Method of use: After packing the product of the present invention into bags and transporting it to the construction site, there is no need to add any substances, just add an appropriate amount of water and stir it evenly, and then directly apply it to the outer wall for construction (replacing lime mortar or...

example 2

[0028] Take 23 kilograms of ceramsite, 12 kilograms of perlite, 17 kilograms of blast furnace slag, 8 kilograms of fly ash, 4 kilograms of solar energy storage materials (patent No. 201110278867.X), 4 kilograms of anhydrite, 3 kilograms of antioxidants, and Crack 0.7 kg of fiber, 4 kg of Wacker rubber powder, 0.3 kg of thixotropic agent, 0.6 kg of sodium silicate, 2.5 kg of hydroxypropyl methylcellulose, 0.001 kg of sodium citrate, and 0.001 kg of urotropine into the mixture In the trough, it is fully mixed through cyclone separation, and then it becomes the finished heat storage, energy saving and sound insulation building material of the present invention.

[0029] Method of use: After packing the product of the present invention into bags and transporting it to the construction site, there is no need to add any substances, just add an appropriate amount of water and stir it evenly, and then directly apply it to the outer wall for construction (replacing lime mortar or cement...

example 3

[0031] Take 25 kg of ceramsite, 14 kg of perlite, 19 kg of blast furnace slag, 9 kg of fly ash, 5 kg of solar energy storage material (patent number 201110278867.X), 4 kg of anhydrous gypsum, 4 kg of antioxidant, and Crack fiber 0.8 kg, Wacker rubber powder 8 kg, thixotropic agent 0.4 kg, sodium silicate 0.7 kg, hydroxypropyl methylcellulose 3 kg, sodium citrate 0.001 kg, and urotropine 0.001 kg were added to the mixture In the trough, it is fully mixed through cyclone separation, and then it becomes the finished heat storage, energy saving and sound insulation building material of the present invention.

[0032] Method of use: After packing the product of the present invention into bags and transporting it to the construction site, there is no need to add any substances, just add an appropriate amount of water and stir it evenly, and then directly apply it to the outer wall for construction (replacing lime mortar or cement mortar). Set it yourself according to your needs, mai...

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Abstract

The invention relates to a heat-storage energy-saving sound-insulation building material, and the material is technically characterized by the following method which comprises the steps: mixing a certain amount of ceramsite, perlite, blast furnace slag, anhydrous gypsum, an antioxidant, anti-cracking fibers, a thixotropic agent, a solar energy storage material, sodium silicate, Wacker rubber powder, hydroxypropyl methyl cellulose, fly ash, sodium citrate, urotropine, redispersible latex powder, hydroxypropyl methyl cellulose, 206 organic silicon water repellent and polypropylene fiber, performing full and uniform mixing through cyclone separation, and after full and uniform mixing, performing packaging to obtain a finished product. When the heat-storage energy-saving sound-insulation building material is heated (a heat source such as sunlight), the building material reaches the saturation temperature and becomes a liquid phase, and heat energy is stored; when the external temperature is lower than the set temperature, the phase-change heat storage material starts to release heat, the phase-change material is changed into a solid phase from a liquid phase after heat release is completed, and circulation is conducted in cycles. The composite material can be made into profiles, plates, mortar and porous bricks, can absorb sound waves, has elasticity, generates tremble, rebound andreverse absorption under the impact of the sound waves, and is converted into different frequencies, so that the structural vibration is reduced, and the purpose of noise elimination is achieved.

Description

technical field [0001] The invention relates to the technical field of natural inorganic building materials, in particular to a heat storage, energy saving and sound insulation building material. Background technique [0002] As we all know, the materials used in the existing building walls and the energy-saving and thermal insulation systems for maintaining the walls are relatively simple. A layer of 110mm-thick benzene board, 80mm-thick foamed polyurethane board or extruded board, although they can play a certain role in heat preservation, but they are flammable, toxic, short service life, complicated construction, easy to slip, and bond strength Various problems. At present, it is difficult to achieve the target of 65% energy saving. Even if it can be achieved, the construction is cumbersome and difficult, and the thickness above 110mm brings great difficulties to the exterior decoration. In order to reduce fire accidents, it is urgent to find alternative new materials ...

Claims

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Application Information

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IPC IPC(8): C04B38/08C04B28/14C04B111/28C04B111/40C04B111/52
CPCC04B28/14C04B2111/28C04B2111/40C04B2111/52C04B2201/20C04B2201/32C04B2201/50C04B22/00C04B14/18C04B14/36C04B12/04C04B16/0633C04B18/027C04B18/08C04B18/141C04B24/06C04B24/24C04B24/383C04B2103/0085C04B2103/608C04B38/0067
Inventor 刘丽荣刘立志
Owner 刘丽荣
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