CN201825875U - Low-radiation energy-saving decorative hollow glass - Google Patents

Abstract

The utility model relates to low-radiation energy-saving decorative hollow glass, which comprises slivered glass and colorless glass. A quadrilateral aluminum partition frame bent with an aluminum partition bar is arranged between the silvered glass and the colorless glass, the aluminum partition frame is respectively fixed to the silvered glass and the color glass on two sides of the aluminum partition frame through a first sealant layer in a sealed manner, a sealed cavity is formed between the silvered glass and the colorless glass, a plurality of mutually connected decorative strips are arranged in the sealed cavity, each decorative strip is provided with positioning grooves, and the mutually connected decorative strips are fixed to each other by means of press fit through the positioning grooves. The low-radiation energy-saving decorative hollow glass has fine energy conservation, sealing performance and dewing resistance, and has prolonged service life.

Description

Low radiation energy-saving is decorated double glazing

Technical field

The utility model relates to a kind of double glazing, and particularly a kind of low radiation energy-saving is decorated double glazing.

Background technology

Decorate double glazing except that basic demands such as the daylighting with general glass, view, decoration, also have better heat insulation, insulation and anti-acoustic capability, it is widely used.Existing double glazing, usually form by two or multi-disc glass, the rubber seal parting bead of establishing by folder between each glass is separated out cavity, the rubber seal parting bead is by viscose glue and the bonding glass that is positioned at its both sides, siccative becomes scattered about the bottom of cavity body, be provided with interconnective ornamental strip in the cavity between adjacent two sheet glass, the interface that ornamental strip two ends tool is used to peg graft interconnects by " ten " font connector assembly between the ornamental strip.Defectives such as existing this double glazing exists that energy-saving effect is poor, easy dew during low temperature, work-ing life are short, and ornamental strip breaks away from each other easily.

Summary of the invention

The purpose of this utility model is at the deficiencies in the prior art, provides a kind of low radiation energy-saving to decorate double glazing, and it has good energy-conservation, stopping property, antisweat, and can improve the stability of ornamental strip.

The technical solution of the utility model is: a kind of low radiation energy-saving is decorated double glazing, its key is, comprise silvered glass and flint glass, the aluminium parting bead that is provided with between described silvered glass and the flint glass by a hollow is bent into tetragonal aluminium bulkhead, the aluminium bulkhead and its both sides silvered glass and flint glass between respectively by the first sealant layer sealing and fixing, between silvered glass and flint glass, form sealed cavity, be provided with several interconnective ornamental strips in the sealing cavity, be equipped with detent on the every ornamental strip, withhold fixing mutually by detent between the interconnective ornamental strip.

Be filled with the efficient molecular sieve sorbent material in the hollow edge of aluminium bulkhead, be equipped with a plurality of perforation around the inner side-wall of aluminium bulkhead, the diameter of this perforation is less than efficient molecular sieve absorbent particles diameter.

Described efficient molecular sieve sorbent material is a 3A efficient molecular sieve sorbent material.

Described first sealant layer is a butyl rubber.

Be equipped with second sealant layer around the outer side wall of described aluminium bulkhead and between two sheet glass.

Described second sealant layer is two component silicone adhesives or bi-component polysulfide glue.

Described second sealant layer contacts with first sealant layer.

The beneficial effects of the utility model are: owing to be provided with the aluminium bulkhead between silvered glass and flint glass, be provided with first sealant layer between two sidewalls of aluminium bulkhead and two sheet glass, form sealed cavity between two sheet glass, the aluminium bulkhead is bent into tetragonal aluminium bulkhead by the aluminium parting bead of a hollow, only need be in the welding of the head and the tail junction of aluminium bulkhead, thereby improved stopping property by reducing weld seam, improved and seal heat insulation function; Because a sheet glass wherein is a silvered glass, has further improved effect of heat insulation, shading coefficient of the present utility model (sc)≤0.45, visible transmission ratio 〉=44%, heat-conduction coefficient K value≤2.10W/m ²Below the K, at the long-term higher southern area of temperature, use the time of cold air longer, when therefore installing, towards outdoor, it is indoor effectively to stop outdoor heat to pass to, and reduces the consumption of indoor cold air with silvered glass one side of the present utility model; In the area, quilt side that temperature is lower throughout the year, use the time of heating installation longer, when therefore installing, with silvered glass of the present utility model one side towards indoor, it is outdoor effectively to stop indoor heat to pass to, and reduces the consumption of indoor hot gas, thereby reaches the effect of energy-saving and emission-reduction.Silvered glass and flint glass can adopt the toughened glass material, become cellular broken little obtuse angle behind the toughened glass crushing, can not cause great bodily injury to human body, improve more than 4 times with general glassy phase specific tenacity, toughened glass has good thermostability, can bear 300 ℃ difference variation, has improved Wind-Pressure Resistance and anti-fight destructiveness greatly, in energy-conservation, also satisfied the requirement of users to security; Owing in sealed cavity, be provided with several interconnective ornamental strips, be equipped with detent on the every ornamental strip again, withhold mutually by detent between the interconnective ornamental strip fixing, therefore improved connect between the ornamental strip stability.

Description of drawings

Fig. 1 is a structural representation of the present utility model;

Fig. 2 is the P portion enlarged view of Fig. 1;

Fig. 3 is that the A of Fig. 1 is to view;

Fig. 4 is the decorative strip structure synoptic diagram;

Fig. 5 is that the B of Fig. 4 is to view;

Fig. 6 is that the C of Fig. 4 is to view.

Embodiment

With reference to Fig. 1, Fig. 2, Fig. 3, a kind of low radiation energy-saving is decorated double glazing, comprise silvered glass 1a and flint glass 1b, the aluminium parting bead that is provided with between silvered glass 1a and the flint glass 1b by a hollow is bent into tetragonal aluminium bulkhead 2, being filled with model in the hollow edge of aluminium bulkhead 2 is the efficient molecular sieve sorbent material 5 of 3A, be equipped with a plurality of perforation 2a around the inner side-wall of aluminium bulkhead 2, the diameter of this perforation 2a is less than the particle diameter of efficient molecular sieve sorbent material 5.Aluminium bulkhead 2 and its both sides silvered glass 1a and flint glass 1b between respectively by first sealant layer, 3 sealing and fixing, first sealant layer 3 is a butyl rubber.Being equipped with second sealant layer, 6, the second sealant layers 6 around the outer side wall of aluminium bulkhead 2 and between two sheet glass is two component silicone adhesives or bi-component polysulfide glue, and second sealant layer 6 contacts with first sealant layer 3.Form sealed cavity 4 between silvered glass 1a and the flint glass 1b, be provided with several interconnective ornamental strips 7 in the sealing cavity 4.Referring to Fig. 4, Fig. 5, Fig. 6, ornamental strip 7 is the aluminum strip of interior sky, its cross section is a rectangle, be equipped with detent 7a on the every ornamental strip 7, withhold fixing mutually by detent 7a between the interconnective ornamental strip, inlay respectively in two stomidiums of ornamental strip 7 and be fixed with voussoir 7b, ornamental strip 7 is by the voussoir 7b at two ends and the inwall riveted and fixed of aluminium bulkhead 2.

This use is novel installs and uses like this:

At the long-term higher southern area of temperature, during installation, towards outdoor, it is indoor effectively to stop outdoor heat to pass to, and reduces the consumption of indoor cold air with silvered glass 1a one side of the present utility model; At the long-term lower northern area of temperature, during installation, towards indoor, it is outdoor effectively to stop indoor heat to pass to, and reduces the consumption of indoor hot gas, thereby reaches the effect of energy-saving and emission-reduction with silvered glass 1a one side of the present utility model.

Claims (7)

1. one kind low radiation energy-saving is decorated double glazing, it is characterized in that: comprise silvered glass (1a) and flint glass (1b), the aluminium parting bead that is provided with by a hollow between described silvered glass (1a) and the flint glass (1b) is bent into tetragonal aluminium bulkhead (2), aluminium bulkhead (2) and be positioned at its both sides silvered glass (1a) and flint glass (1b) between respectively by first sealant layer (3) sealing and fixing, between silvered glass (1a) and flint glass (1b), form sealed cavity (4), be provided with several interconnective ornamental strips (7) in the sealing cavity (4), be equipped with detent (7a) on the every ornamental strip (7), withhold fixing mutually by detent between the interconnective ornamental strip.

2. low radiation energy-saving according to claim 1 is decorated double glazing, it is characterized in that: be filled with efficient molecular sieve sorbent material (5) in the hollow edge of aluminium bulkhead (2), be equipped with a plurality of perforation (2a) around the inner side-wall of aluminium bulkhead (2), the diameter of this perforation (2a) is less than efficient molecular sieve sorbent material (5) particle diameter.

3. low radiation energy-saving according to claim 2 is decorated double glazing, and it is characterized in that: described efficient molecular sieve sorbent material (5) is a 3A efficient molecular sieve sorbent material.

4. low radiation energy-saving according to claim 1 is decorated double glazing, and it is characterized in that: described first sealant layer (3) is a butyl rubber.

5. low radiation energy-saving according to claim 1 is decorated double glazing, it is characterized in that: be equipped with second sealant layer (6) around the outer side wall of described aluminium bulkhead (2) and between two sheet glass.

6. low radiation energy-saving according to claim 5 is decorated double glazing, it is characterized in that: described second sealant layer (6) is two component silicone adhesives or bi-component polysulfide glue.

7. low radiation energy-saving according to claim 5 is decorated double glazing, and it is characterized in that: described second sealant layer (6) contacts with first sealant layer (3).

Images