Perforated glass plate and structure adopting the same

A glass plate and supporting structure technology, applied in building components, sound insulation, sound insulation doors/windows, etc., can solve the problems of lack of ventilation, poor air circulation, and loud noise of glass plates, so as to ensure indoor air quality and good sound insulation effect. , Avoid the effect of cold and cold

Inactive Publication Date: 2009-02-18
马兴华
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

This technology allows for better control over sounds transmitted from vehicles during operation or at nights with heavy sunlight conditions. By having multiple layers of glass plates that have different properties (openings) within each panel), these filters help prevent unwanted sounds like rattles. Additionally, this design prevents condensate water droplets from getting into the cabin where passengers are located due to temperature differences between them. Overall, this technology improves passenger comfort and reduces environmental concerns associated with automobile interiors.

Problems solved by technology

This patents describes various technical solutions related to improving the functionality and design options associated with building interiors including glazings, door frames, light shield systems, fire prevention devices, smoke evacuations, heat preservation measures, environmental comfort factors like sunlight transmission, water intrusion from underground installments, moisture condensate accumulations during winter weather conditions, dirt buckling collars impactors, snow shedding onto roof surfaces, and insect damage. Additionally, current methods involve adding expensive transparent acoustochromatic films or laminating reflective coatings into the glass panel itself, leading to decreased visibility through fogging and reflection.

Method used

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  • Perforated glass plate and structure adopting the same
  • Perforated glass plate and structure adopting the same
  • Perforated glass plate and structure adopting the same

Examples

Experimental program
Comparison scheme
Effect test

Embodiment approach

[0037] see Figure 1a , 2 , the porous glass plate 1 is provided with small holes 3, and the small holes 3 run through in the thickness direction and are regularly distributed in the plane direction; ≥0.5%, ≤30%, preferably ≥5%, ≤20%. The thickness of the perforated glass plate 1 is ≥2 mm and ≤100 mm; the small hole 3 is circular, with a diameter of ≥0.1 mm and ≤100 mm.

[0038] see Figure 1b , 2 , the porous glass plate 1 is provided with small holes 3, and the small holes 3 run through in the thickness direction and are regularly distributed in the plane direction; ≥0.5%, ≤30%, preferably ≥5%, ≤20%. The thickness of the perforated glass plate 1 is ≥2mm and ≤100mm; the small hole 3 is polygonal.

Embodiment 1

[0039] Embodiment one: form one of the window of the building structure that adopts the perforated glass plate

[0040] see image 3 The window of the building structure (including glass curtain wall) is formed by the combination of perforated glass plate 1, ordinary glass plate 4 and support structure 12, and there is a gap 5 of 1 mm to 500 mm between the perforated glass plate 1 and ordinary glass plate 4; Plate 4 adopts prior art single-layer glass plates such as float glass, tempered glass, tempered glass for curtain wall and semi-tempered glass for curtain wall. The support structure 12 adopts a frame, a frame, and can also adopt ribbed glass, metal support structure points, etc. (not shown in the figure). The perforated glass plate 1 is installed on the indoor side 6, and the common glass plate 4 is installed on the outdoor side 7, and of course it can also be set in reverse. When ventilation is required, the ordinary glass plate 4 is opened, the perforated glass plate...

Embodiment 2

[0041] Embodiment two: adopt the form two of building window of perforated glass plate

[0042] see Figure 4 The window of the building structure (including the glass curtain wall) is formed by the combination of the porous glass plate 1, the insulating glass 8 and the supporting structure 12, and there is a gap 5 of 1 mm to 500 mm between the porous glass plate 1 and the insulating glass 8; the supporting structure 12 adopts Frames, frames, ribbed glass, metal support structure points, etc. (not shown in the figure) can also be used. The perforated glass plate 1 is installed on the indoor side 6, and the common glass plate 4 is installed on the outdoor side 7, and of course it can also be set in reverse. When ventilation is required, the hollow glass 8 is opened, the perforated glass plate 1 is in a closed state, and the air passes in and out through the small holes 3 on the perforated glass plate 1 to realize indoor and outdoor air circulation.

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Abstract

The invention relates to a bored glass plate and a plurality types of structures which adopt the bored glass plate. The technical proposal includes that: the bored glass plate is provided with pores which are communicated in the thickness direction and is regularly and evenly distributed in the plane direction. The opening percentage is more than or equal to 0.5% and less than or equal to 30%, and the pores are round or polygonal. The structures which adopt the bored glass plate include a building window which adopts the bored glass plate, a vehicle window which adopts the bored glass plate, a fencing which adopts the bored glass plate, a sound barrier which adopts the bored glass plate and a traffic passage complete blocking structure which adopts the bored glass plate. The bored glass plate has air permeability, facilitates ventilation and has the sound absorption effect of a perforated plate and a micro perforated panel; therefore, the bored glass plate has certain sound insulation effect. The bored glass plate is applicable to building windows or glass curtain walls, vehicle windows, various sound barriers, fencings and traffic passage blocking structures.

Description

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Claims

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Application Information

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Owner 马兴华
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