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Inorganic heat-storage, energy-saving and temperature-regulating wall material

A wall material and heat storage technology, which is applied in the field of natural inorganic heat storage building materials, can solve the problems of easy combustion, poor bonding strength, and easy slippage, and achieve structural vibration reduction, small thermal conductivity, and high bonding strength. Effect

Active Publication Date: 2013-08-21
吉林省益冠中能实业有限公司
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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 of more than 110mm will bring great difficulties to the exterior decoration.

Method used

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  • Inorganic heat-storage, energy-saving and temperature-regulating wall material
  • Inorganic heat-storage, energy-saving and temperature-regulating wall material

Examples

Experimental program
Comparison scheme
Effect test

example 1

[0022] Take 1000 kg of 42.5 grade high alumina cement, 700 kg of vitrified microspheres with a closed cell rate ≥ 50%, 420 kg of aluminum silicate powder, 240 kg of bentonite, 25 kg of redispersible latex powder F2805, and 7 kg of hydroxyl Propyl methyl cellulose, 16 kg of polypropylene fiber (FC-05), 15 kg of starch ether 6200, 200 kg of lime calcium powder, 15 kg of 206 silicone water repellent, 10 kg of alkane as an air-entraining agent Phenol ethylene oxide and 80 kg of asbestos wool are added into the mixing tank, and after being thoroughly mixed by cyclone separation, after being fully mixed and packaged, it becomes the finished product of the inorganic heat storage energy-saving temperature-regulating wall material of the present invention.

[0023] 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 to stir evenly, and the...

example 2

[0026] Take 1,000 kg of 42.5 grade high alumina cement, 550 kg of vitrified microspheres with a closed cell rate ≥ 50%, 450 kg of aluminum silicate powder, 200 kg of bentonite, 20 kg of redispersible latex powder F2805, and 8 kg of hydroxyl Propyl methyl cellulose, 15 kg of polypropylene fiber (FC-05), 10 kg of starch ether 6200, 150 kg of lime calcium powder, 15 kg of 206 silicone water repellent, 11 kg of alkane as an air-entraining agent Phenol ethylene oxide and 100 kg of asbestos wool are added to the mixing tank and fully mixed by cyclone separation. After fully mixed and packaged, it becomes the finished product of the inorganic thermal storage energy-saving temperature-regulating wall material of the present invention.

[0027] 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 ...

example 3

[0030] Take 1,000 kg of 42.5 grade high alumina cement, 800 kg of vitrified microspheres with a closed cell rate ≥ 50%, 300 kg of aluminum silicate powder, 150 kg of bentonite, 25 kg of redispersible latex powder F2805, and 5 kg of hydroxyl Propyl methyl cellulose, 13 kg of polypropylene fiber (FC-05), 18 kg of starch ether 6200, 100 kg of ash calcium powder, 16 kg of 206 silicone water repellent, 8 kg of alkane as an air-entraining agent Phenylphenol ethylene oxide, 110 kilograms of asbestos wool, are added in the mixing tank, and after being thoroughly mixed by cyclone separation, after fully mixing and packaging, it becomes the finished product of the inorganic thermal storage energy-saving temperature-regulating wall material of the present invention.

[0031] The use method and scope of application of the present invention are the same as Example 1.

[0032] After testing, its physical and mechanical performance indicators are also within the range of Table 1 and Table 2....

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Abstract

Disclosed is an inorganic heat-storage, energy-saving and temperature-regulating wall material. The technical scheme includes that a certain quantity of high alumina cement, vitreous beads, aluminum silicate powder, bentonite, redispersible polymer powder, hydroxypropyl methyl cellulose, polypropylene fibers, starch ether 6200, gray calcium powder, water repellent or waterproofing agent, air-entraining agent and asbestos wool are mixed, and are sufficiently mixed in a cyclone separation manner and packaged to form a finished product. When heated (by heat sources such as sunlight and the like), the low-carbon heat-storage, energy-saving and automatic temperature-regulating wall material becomes liquid when reaching saturated temperature, and heat energy is stored; and when external temperature is lower than set temperature, the heat-storage material begins to release heat, after the heat is released thoroughly, the phase-change material becomes solid from the liquid, and the process runs in circle. The inorganic heat-storage, energy-saving and temperature-regulating wall material can be made into a section, a plate, mortar and a perforated brick, can absorb sound wave, is elastic, and vibrates, rebounds and reversely absorbs under sound wave impact, frequencies of the material are different, structural vibration is relieved, and the purpose of eliminating noise is achieved.

Description

technical field [0001] The invention relates to the technical field of natural inorganic heat storage building materials, in particular to an inorganic heat storage energy-saving temperature-adjusting wall 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 of more than 110mm will bring great difficulties to the exterior decoration. In order to implement the State Council's "Guo Fa ...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C04B28/06
Inventor 刘丽荣刘立志
Owner 吉林省益冠中能实业有限公司
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