Composite efficient energy-saving heat-insulating material, and its manufacturing method and special apparatus

A thermal insulation material, high-efficiency and energy-saving technology, applied in heat exchange equipment, mechanical equipment, applications, etc., can solve the problems of light weight, no fire resistance, reduced thermal insulation performance, etc. The effect of good thermal insulation

Inactive Publication Date: 2004-01-28
谢文丁
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

There are many kinds of current insulation materials, but basically they all belong to the traditional model, which will not only pollute the environment, but also have many deficiencies in the insulation function, mainly including: 1. The thermal insulation performance is low, such as the thermal conductivity of rock wool materials. , but it cannot be applied without molding. The thermal conductivity after dipping molding is more than four times different from that before dipping molding, which greatly reduces the thermal insulation performance.
After molding perlite not only reduces the thermal insulation performance, but also greatly reduces the advantages of light weight; 2. Many materials using resin as molding agent change from non-combustible to flammable, and organic thermal insulation materials have no fire resistance, such as polyphenyl products, In case of fire, it immediately loses the heat insulation function, and at the same time releases suffocating toxic gases; 3. It is prone to mildew, aging, and fragmentation, and its service life is short; 4. The production consumes a lot of energy and seriously pollutes the environment.

Method used

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  • Composite efficient energy-saving heat-insulating material, and its manufacturing method and special apparatus
  • Composite efficient energy-saving heat-insulating material, and its manufacturing method and special apparatus
  • Composite efficient energy-saving heat-insulating material, and its manufacturing method and special apparatus

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0042] 1. Put 45kg of soaked aluminum silicate fiber, ultra-fine glass wool and 8kg of fast T in a mixer, store 400 liters of water in the mixer, and stir it into a slurry. The water temperature is 20°C, the room temperature is 20°C, and the time is 20 minutes;

[0043] 2. Put 25kg of sepiolite and 35kg of brucite into the prepared slurry, and continue to make slurry for 20 minutes;

[0044] 3. Add 50kg of expanded perlite and 30kg of floating beads;

[0045] 4. Add 20-30kg of bentonite;

[0046] 5. Put in the catalyst for foaming, and the catalytic time is 10 minutes;

[0047]6. Put the water glass adhesive into it to make it into a paste product while continuing to stir.

Embodiment 2

[0049] 1~5 steps are with embodiment one;

[0050] 6. Put the cement type adhesive into it to make it become a pipe blank while continuing to stir;

[0051] 7. Put the rough material that has been made into a sticky dough into a propulsion mixer and immediately add the forming agent sodium fluorosilicate, and input it into the extruder in the pipe making equipment while stirring, and use different molds to make different specifications. Tube profiles.

Embodiment 3

[0053] 1~5 steps are with embodiment one;

[0054] 6. Put the water glass bentonite adhesive into it, and make it become the blank of the wall panel while continuing to stir;

[0055] 7. Put the sticky rough blank into the board-making equipment and add the forming agent sodium fluorosilicate, and roll it into a wall board.

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PUM

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Abstract

The composite high-effective energy-saving heat-insulating material comprises the following components: aluminium silicate fibre, glass fibre, quick T, sepiolite, brucite, expansive pearlite, piaozhuor diatomite, bentonite, catalyst and adhesive. Its production method includes the following steps: placing the soaked aluminium silicate fibre, glass fibre and quick T into stirring machine to obtain slurry material, adding sepiolite and brucite, then adding expansive pearlite and piaozhu, adding bentonite, catalyst and adhesive, stirring them to obtain paste-like finished product, pipe blank and wall plate blank material respectively.

Description

1. Technical field: [0001] The invention relates to a composite high-efficiency energy-saving heat insulation material used in heat insulation engineering, a production method and special equipment. 2. Background technology: [0002] Thermal insulation materials are widely used as lining and insulating materials in thermal insulation engineering in industrial and living fields, such as equipment and pipelines that require thermal insulation in petroleum, chemical, thermoelectric, metallurgical and other systems. It can also be used for heat insulation layer of building walls, fireproof partition layer, light-weight movable room wall panels, constant temperature room, etc. There are many kinds of current insulation materials, but basically they all belong to the traditional model, which will not only pollute the environment, but also have many deficiencies in the insulation function, mainly including: 1. The thermal insulation performance is low, such as the thermal conductiv...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C04B14/02C04B14/38C04B28/26C04B38/02F16L59/00
Inventor 谢文丁
Owner 谢文丁
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