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Building evaporation cooling energy-saving method

A technology for evaporative cooling and construction, which is applied in the direction of building insulation materials, buildings, building components, etc., can solve the problems of unsatisfactory national energy, poor anti-mildew effect on outer walls, and heavy costs, and achieve uniform heat dissipation, reduce energy consumption, and expand flow The effect of warp area

Inactive Publication Date: 2019-08-23
IANGSU COLLEGE OF ENG & TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

But while it brings comfort to the non-poor, who make up 80 percent of the world's population, it comes at a heavy price, consuming far more energy than is used to light and heat buildings
In addition, my country has a population of 1.3 billion. If all air-conditioning equipment is used, the national energy reserves will not be able to meet its huge consumption.
And the anti-mildew effect of the outer wall of the traditional building is poor

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0056] An energy-saving method for building evaporative cooling, specifically comprising the following steps:

[0057] S1. First understand the specific external structure of the building in detail;

[0058] S2. Construction of water shelters: build water shelters above the windows of buildings and other holes with ventilation function;

[0059] S3, laying waterproof membrane: lay waterproof membrane on the outer wall of the building except windows and other holes with ventilation effect;

[0060] S4, place the water tank: place a stainless steel water tank on the top of the building, and the stainless steel water tank is set as an opening;

[0061] S5, install the outlet pipe: install the outlet pipe around the top of the building, the inlet of the outlet pipe communicates with the drain pipe at the bottom of the water tank through the pipeline, and install the control valve on the drain pipe;

[0062] S6, build water storage tank: build water storage tank at the back of th...

Embodiment 2

[0085] The difference from Example 1 is that the outer wall of the building is sprayed with an anti-mildew layer, and the anti-mold layer is prepared by the following method:

[0086] Take the following raw materials and weigh them by weight: 3 parts of ash calcium powder, 7 parts of heavy calcium powder, 5 parts of calendering powder, 4 parts of mobile paraffin, 4 parts of pyrethrin, 6 parts of acrylic resin, 7 parts of acrylic antifungal agent, 7 parts of sodium diacetate preservative, 3 parts of boric acid solution, 8 parts of silicone defoamer, 10 parts of bentonite binder, 80 parts of deionized water;

[0087] S1. Material preparation: first weigh the above raw materials;

[0088] S2. Agent liquid mixing: first pour deionized water into the stirrer, the stirrer is a constant temperature magnetic stirrer, then pour the acrylic antifungal agent, sodium diacetate preservative, boric acid solution into the stirrer, turn on the stirrer, Slowly increase the temperature inside ...

Embodiment 3

[0096] The difference with embodiment 2 is the preparation of anti-mildew layer, and its specific preparation method is as follows:

[0097] Get the following raw materials and weigh them by weight: 5 parts of ash calcium powder, 9 parts of heavy calcium powder, 7 parts of calendering powder, 8 parts of mobile paraffin, 6 parts of pyrethrin, 8 parts of acrylic resin, 9 parts of acrylic antifungal agent, 11 parts of sodium diacetate preservative, 7 parts of boric acid solution, 10 parts of silicone defoamer, 20 parts of bentonite binder, 120 parts of deionized water;

[0098] S1. Material preparation: first weigh the above raw materials;

[0099] S2. Agent liquid mixing: first pour deionized water into the stirrer, the stirrer is a constant temperature magnetic stirrer, then pour the acrylic antifungal agent, sodium diacetate preservative, boric acid solution into the stirrer, turn on the stirrer, Slowly increase the temperature inside the stirrer until it reaches 85 degrees C...

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PUM

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Abstract

The invention discloses a building evaporation cooling energy-saving method. The method comprises the following steps of firstly, knowing the specific external structure of a building in detail; constructing a water shielding shed; laying a waterproof film; placing a water tank; installing a water outlet pipe; constructing a water storage tank; constructing a drainage culvert; constructing a sewer; and installing a high-pressure pipe. According to the method, construction is convenient, water in the water tank is sprayed onto the waterproof film through the water outlet pipe, water flows downalong the waterproof film, evaporation is carried out, cooling is carried out on a building, energy consumption is greatly reduced through the evaporative cooling method, water is introduced into thewater storage tank by passing through the sewer and the drainage culvert, and is re-introduced into the water tank through a high-pressure water pump, water is recycled, water resources are greatly saved, water flows downwards through a space between the water shielding shed and the wall of the building, water does not pass through holes with the air-permeable effect such as windows, so that airing of other objects such as clothes of people cannot be influenced, and the building is effectively prevented from mildewing.

Description

technical field [0001] The invention relates to the technical field of construction industry, in particular to an energy-saving method for building evaporation cooling. Background technique [0002] The construction industry is an industry that revolves around the design, construction, decoration and management of buildings. Urban architecture is an important part of the city, and architecture is not just an artificial work for people to stay, rest, and entertain. It is related to our economy, culture, and life in a large way. A kind of practical art, but also belongs to the plastic art in a broad sense. Refers to the material products piled up with heavy material materials. It is the "second nature" created by human beings to meet the needs of their own living, communication and other activities, and it is also the most basic space environment for human daily life. Architectural art is a comprehensive practical plastic art formed through the aesthetic treatment of archite...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): F24F5/00E04B1/66E04B1/74
CPCE04B1/665E04B1/74F24F5/0035
Inventor 王斯海高路恒谢帅宋永献
Owner IANGSU COLLEGE OF ENG & TECH