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Energy-saving daylighting masonry module

A light-passing and light-channel technology, which is applied to buildings, using sunlight, optical fiber light guides, etc., can solve the problems of reduced solar heat gain, unfavorable thermal insulation and energy saving, architectural impact, etc. The effect of energy saving

Active Publication Date: 2020-11-03
DALIAN UNIV OF TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

And the gas will always have the problem of leakage, so this process is very dependent on the sealing quality of the glass
[0014] (3) In most commercial buildings, Low-E coatings are usually used to reduce solar heat gain. Although this makes it beneficial to supplement heating, the solar heat gain is reduced due to the impact of these coatings on the outside Relatively strong, it will strongly reflect sunlight like a mirror, which will affect adjacent buildings
[0019] Although the glass brick masonry can achieve the lighting effect, the heat preservation effect is still not as good as that of the concrete block, which is not conducive to heat preservation and energy saving, and the glass brick masonry cannot be separated from the support of the load-bearing wall or frame structure

Method used

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  • Energy-saving daylighting masonry module

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0051] Example 1: Implementation of module form

[0052] The light guide in the energy-saving daylighting masonry module of the present invention can be freely stretched and deformed, and the module form can be bent or twisted, such as Image 6 Shown.

[0053] In practice, the optimal angle can be adjusted to obtain sufficient natural lighting.

Embodiment 2

[0054] Example 2: Implementation of light refraction at entrance and exit

[0055] (1) The quartz convex lens used in the light entrance design of the energy-saving lighting masonry module of the present invention can be replaced with a Fresnel lens, such as Figure 7 Shown.

[0056] (2) The mirror surface of the Fresnel lens can be processed into a regular square or rectangle to expand the lighting area of ​​the module. The internal light guide can also be processed into a curved surface, and the module can also be twisted and deformed accordingly, such as Picture 8 Shown.

[0057] (3) The material of the lens can be replaced by composite materials such as resin and plexiglass to improve wear resistance and anti-shatter strength.

[0058] (4) Multiple lenses form an array combination and share the same light guide channel.

Embodiment 3

[0059] Embodiment 3: Implementation of total reflection of optical channel

[0060] The total reflection light guide channel in the energy-saving daylighting masonry module of the present invention can be replaced with other materials or forms, such as inner wall total reflection coating pipe, resin light pipe, liquid crystal light pipe, etc.

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Abstract

The invention belongs to the technical field of energy-saving daylighting and relates to an energy-saving daylighting masonry module. The module is mainly composed of a structural part, a thermal insulation part and a light-passing part; the lens at the entrance of the refraction area of ​​the light-passing part changes the light path so that light enters the total reflection light channel, and the lens at the exit end restores the light path to provide indoor lighting. The present invention uses lenses and light guides to change the light path to compress the light path; the thermal insulation material in the energy-saving daylighting masonry module is combined with the optical device to form a block to achieve the double-purpose combination mode of daylighting and energy saving. The present invention is used for the energy-saving transformation of existing buildings, and can meet the demand for lighting through the transformation of local walls or window openings, so that the window opening area of ​​the building can be further reduced, and the energy-saving efficiency of the building can be improved. The present invention can be used in the renovation of roofs, walls, ground planes, and window walls of old buildings; the present invention achieves lighting, heat preservation and energy saving effects, and is low in cost, and is suitable for popularization.

Description

Technical field [0001] The invention belongs to the technical field of energy-saving daylighting, and relates to an energy-saving daylighting masonry module. Background technique [0002] As an important strategic measure for the country's sustainable development, building energy efficiency is also the main content of building a resource-saving society. It has become an important task for construction workers in the construction field. In the building maintenance structure, doors and windows, exterior walls, roof and ground are the four major parts of building energy consumption. [0003] 1. Energy-saving measures for windows [0004] Doors and windows are the weakest link of heat preservation and energy saving in the enclosure structure. Therefore, the use of energy-saving windows is the existing technical solution to determine a reasonable window-to-wall ratio. Among the various energy-saving windows produced in China, the double-glass plastic windows have more significant energy...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): E04C1/39E04C1/41E04C1/42
CPCE04C1/39E04C1/41E04C1/42F21S11/007F21V5/007F21V5/008F21V9/08G02B6/0006G02B6/0008
Inventor 邵明于辉陈岩姚东升李佳烜阿彦·阿地里江
Owner DALIAN UNIV OF TECH
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