CN106277849A - Double glazing with internal portioning layer - Google Patents

Abstract

The present invention relates to the double glazing of a kind of band internal portioning layer, it includes the first clear glass and the second clear glass, and the double glazing of this band internal portioning layer also includes lamina septum pellucidum, and this lamina septum pellucidum is between this first clear glass and this second clear glass；Between this lamina septum pellucidum and this first clear glass and this second clear glass, further respectively having spacer bar, so that forming the first cavity between this lamina septum pellucidum and this first clear glass, between this lamina septum pellucidum and this second clear glass, forming the second cavity；It is provided with fluid sealant in the junction of this spacer bar surrounding.The present invention has that cost is relatively low and heat rejection ability preferably advantage.

Description

Double glazing with internal portioning layer

Technical field

The present invention relates to a kind of double glazing, the double glazing of a kind of band internal portioning layer.

Background technology

At present, in order to promote the energy-efficient performance of the products such as building doors and windows, partition, cladding glass, vehicle glass, reduce the heat transmission on the indoor and outdoor both sides of building doors and windows, typically use filling with inert gas, adjustment sealed compartment thickness or employing divided glass inside double glazing sealant to form multiple annular seal space and reduce heat transmission further.Such as, use three glass two empty, the hollow glass structure of four glass three skies.When using these double glazings, owing to changing the structure of double glazing, the aluminium alloy extrusions of building doors and windows is also required for making corresponding change.But, due to the change of sealant thickness, it is easily caused raw-material change, it is thus possible to cost is significantly increased, thus have impact on promoting the use of of energy-conserving product.

Summary of the invention

In view of above-mentioned condition, it is necessary to provide a kind of cost relatively low and the double glazing of heat rejection ability preferably band internal portioning layer.

The double glazing of a kind of band internal portioning layer, it includes the first clear glass and the second clear glass, and the double glazing of this band internal portioning layer also includes lamina septum pellucidum, and this lamina septum pellucidum is between this first clear glass and this second clear glass；Between this lamina septum pellucidum and this first clear glass and this second clear glass, further respectively having spacer bar, so that forming the first cavity between this lamina septum pellucidum and this first clear glass, between this lamina septum pellucidum and this second clear glass, forming the second cavity；It is provided with fluid sealant in the junction of this spacer bar surrounding.

This first clear glass or this second clear glass are coated glass, and its thickness is 1mm ~ 25mm.

This lamina septum pellucidum is organic film, organic plastics, lucite or glass, and its thickness is 0.1 μm ~ 25mm.

This spacer bar is aluminum spacer bar or warm limit spacer bar, and its width is 6mm-30mm.

Having groove in this spacer bar, the end face of this lamina septum pellucidum is positioned at this groove.

Two ends at this lamina septum pellucidum, the thickness of this spacer bar between this lamina septum pellucidum with this first clear glass and between this lamina septum pellucidum and this second clear glass is identical so that this first cavity and this second cavity vertical direction cross section be shaped as rectangle.

It is formed around this spacer bar at this lamina septum pellucidum.

This lamina septum pellucidum has the first end and second end relative with this first end, distance between this first end and this first clear glass is less than the spacing of this first end with this second clear glass, and the distance between this second end and this first clear glass is more than the spacing of this second end with this second clear glass.

This first cavity is shaped as triangle with this second cavity vertical direction cross section.

This lamina septum pellucidum is formed by the two-layer transparent sheet being spaced, and is provided with spaced-apart elements between this two-layer transparent sheet, and this spaced-apart elements is fixed on this spacer bar and direction in this first cavity and this second cavity extends.

This lamina septum pellucidum is clamped by fixation clamp, and this fixation clamp is fixed on this spacer bar and direction in this first cavity and this second cavity extends.

In this first cavity and this second cavity, near the position of this spacer bar, it is additionally provided with spaced columns.

It is formed around spaced columns in this transparent spacers.

This transparent spacers is also formed with hole for connecting this first cavity and this second cavity.

The diameter of this hole is less than or equal to 1dm.

The double glazing of this band internal portioning layer is additionally provided with gas valve, and this gas valve is for controlling the connection of this first cavity and this second cavity.

This gas valve is located in this transparent spacers.

This gas valve is located on this spacer bar.

The double glazing of above-mentioned band internal portioning layer, by the method increasing layer of transparent interlayer in double glazing annular seal space, promotes the heat rejection ability of double glazing, promotes energy-efficient performance.Owing to effectively preventing the convection current of air between two sheet glass in annular seal space, therefore double glazing has higher heat-insulating and energy-saving and sound-insulation capability；And because smart structural design so that the double glazing of band internal portioning layer has relatively low cost.Energy.

Accompanying drawing explanation

Fig. 1 is the double glazing schematic diagram of the band internal portioning layer of first embodiment of the invention.

Fig. 2 is the front view of the double glazing of band internal portioning layer shown in Fig. 1.

Fig. 3 is the double glazing schematic diagram of the band internal portioning layer of second embodiment of the invention.

Fig. 4 is the double glazing schematic diagram of the band internal portioning layer of third embodiment of the invention.

Fig. 5 is the double glazing schematic diagram of the band internal portioning layer of fourth embodiment of the invention.

Fig. 6 is the double glazing schematic diagram of the band internal portioning layer of fifth embodiment of the invention.

Fig. 7 is the double glazing schematic diagram of the band internal portioning layer of sixth embodiment of the invention.

Fig. 8 is the double glazing schematic diagram of the band internal portioning layer of seventh embodiment of the invention.

Fig. 9 is the double glazing schematic diagram of the band internal portioning layer of eighth embodiment of the invention.

Figure 10 is the double glazing schematic diagram of the band internal portioning layer of ninth embodiment of the invention.

Figure 11 is the double glazing schematic diagram of the band internal portioning layer of tenth embodiment of the invention.

Figure 12 be double glazing cavity in survey tables of data for the contrast experiment of air.

Figure 13 be double glazing argon in survey tables of data for the contrast experiment of air.

Detailed description of the invention

Below in conjunction with drawings and Examples, the double glazing of the band internal portioning layer of the present invention is described in further detail.

Referring to Fig. 1, the double glazing 100 of the band internal portioning layer of first embodiment of the invention, it includes first clear glass the 11, second clear glass 12, lamina septum pellucidum 13, spacer bar 14 and fluid sealant 15.Lamina septum pellucidum 13 is between the first clear glass 11 and the second clear glass 12.Spacer bar 14 is between lamina septum pellucidum 13 and the first clear glass 11 and between lamina septum pellucidum 13 and the second clear glass 12, so that forming the first cavity 110 between lamina septum pellucidum 14 and the first clear glass 11, make to form the second cavity 120 between lamina septum pellucidum 14 and the second clear glass 12.Fluid sealant 15 is located at the junction of spacer bar 14 surrounding, so that the first cavity 110 and the second cavity 120 are to seal relative to the external world.

Wherein, the first clear glass 11 and/or the second clear glass 12 can be common uncoated glass, it is also possible to be coated glass, preferably coated glass.The thickness of the first clear glass 11 and/or the second clear glass 12 can be 1 millimeter of (mm) ~ 25mm.

Lamina septum pellucidum 13 can be organic film, organic plastics, lucite or glass, its can be fully transparent can also be partially transparent, it is also possible to be band color.The thickness of lamina septum pellucidum 13 can be 0.1 micron of (μm) ~ 25mm.

Spacer bar 14 can be aluminum spacer bar, warm limit spacer bar, or other kinds of spacer bar, and its width can be 6mm-30mm.

Assisting fixing by spacer bar 14, the fixed form of lamina septum pellucidum 13 can be fixed on two ends, it is also possible to is that surrounding is fixing.In the present embodiment, please be provided with groove 142 in lamina septum pellucidum 13 with seeing Fig. 1 and 2, the surrounding of lamina septum pellucidum 13 is fixed in groove 142.Especially, two ends at lamina septum pellucidum 13, the spacer bar 14 thickness (or being width) between lamina septum pellucidum 13 and the first clear glass 11 approximates the thickness between lamina septum pellucidum 13 and the second clear glass 12, so that the first cavity 110 and the second cavity 120 are shaped as rectangle, as shown in Figure 1 at vertical direction cross section.

The double glazing 100 of above-mentioned band internal portioning layer, by the method increasing layer of transparent interlayer 13 in double glazing annular seal space, promotes the heat rejection ability of double glazing, promotes energy-efficient performance.Owing to effectively preventing the convection current of air between two sheet glass in annular seal space, therefore double glazing has higher heat-insulating and energy-saving and sound-insulation capability；And because smart structural design so that the double glazing 100 of band internal portioning layer has relatively low cost.

Referring to Fig. 3, show the double glazing 200 of the band internal portioning layer of second embodiment of the invention, double glazing 200 is similar to double glazing 100, and it includes first clear glass the 21, second clear glass 22, lamina septum pellucidum 23, spacer bar 24 and fluid sealant 25.Lamina septum pellucidum 23 has the first end 232 and second end 234 relative with the first end 232, distance between first end 232 and the first clear glass 21 is less than the first end 232 and spacing of the second clear glass 22, and the distance between the second end 234 and the first clear glass 21 is more than the second end 234 and spacing of the second clear glass 22, thus the first cavity 210 and the second cavity 220 can be trapezoidal or triangle in the shape of vertical direction cross section.Concrete the most in the present embodiment, the first cavity 210 and the second cavity 220 are shaped as triangle at vertical direction cross section.

Referring to Fig. 4, show the double glazing 300 of the band internal portioning layer of third embodiment of the invention, double glazing 300 is similar to double glazing 100, and it includes first clear glass the 31, second clear glass 32, lamina septum pellucidum 33, spacer bar 34 and fluid sealant 35.Lamina septum pellucidum 33 is formed by the two-layer transparent sheet being spaced, and is provided with spaced-apart elements 342 between this two-layer transparent sheet.This spaced-apart elements 342 is fixed on spacer bar 34 and direction in this first cavity 310 and this second cavity 320 extends.

Referring to Fig. 5, show the double glazing 400 of the band internal portioning layer of fourth embodiment of the invention, double glazing 400 is similar to double glazing 100, and it includes first clear glass the 41, second clear glass 42, lamina septum pellucidum 43, spacer bar 44 and fluid sealant 45.Lamina septum pellucidum 43 is clamped by fixation clamp 442, and fixation clamp 442 is fixed on spacer bar 44 and direction in this first cavity 410 and this second cavity 420 extends.

Referring to Fig. 6, show the double glazing 500 of the band internal portioning layer of fifth embodiment of the invention, double glazing 500 is similar to double glazing 100, and it includes first clear glass the 51, second clear glass 52, lamina septum pellucidum 53, spacer bar 54 and fluid sealant 55.Especially, close in the first cavity 510 and the second cavity 520, near the position of spacer bar 54, it is additionally provided with spaced columns 543.Spaced columns 543 only has in the side of lamina septum pellucidum 53.Being appreciated that in the sixth embodiment of the present invention, the two ends of lamina septum pellucidum 53 ' or surrounding all can be provided with spaced columns 543 ', as shown in Figure 7.

Referring to Fig. 8, show the double glazing 600 of the band internal portioning layer of seventh embodiment of the invention, double glazing 600 is similar to double glazing 100, and it includes first clear glass the 61, second clear glass 62, lamina septum pellucidum 63, spacer bar 64 and fluid sealant 65.Especially, lamina septum pellucidum 63 is also formed with for connecting the first cavity 610 and the second cavity 620 hole 632.The diameter of hole 632 may be less than or equal to 1 decimeter (dm).Hole 632 can be used for allowing gas molecule pass therethrough, such that it is able to keep balancing between the first cavity 610 and the second cavity 620 both sides air pressure, and then prevents lamina septum pellucidum 63 be deformed or rupture.In the eighth embodiment of the present invention, lamina septum pellucidum 63 ' can also form bigger hole 632 ', as shown in Figure 9.

Referring to Figure 10, show the double glazing 700 of the band internal portioning layer of ninth embodiment of the invention, double glazing 700 is similar to double glazing 100, and it includes first clear glass the 71, second clear glass 72, lamina septum pellucidum 73, spacer bar 74 and fluid sealant 75.Especially, lamina septum pellucidum 73 is additionally provided with for controlling the gas valve 76 of connection between the first cavity 710 and the second cavity 720.Open when gas valve 76 can be used for different between the first cavity 710 from the second cavity 620 both sides air pressure, between the first cavity 710 with the second cavity 720 both sides air pressure close to or simultaneously close off mutually, thus allow the air pressure between the first cavity 710 and the second cavity 720 both sides keep balance, and then can keep each other while independence at the first cavity 710 and the second cavity 720, it is also possible to prevent lamina septum pellucidum 73 from deforming because of pressure differential or rupturing.In the tenth embodiment of the present invention, gas valve 76 ' can also be located on spacer bar 74 ', as shown in figure 11.

Specific embodiment

Having preferably heat-proof quality for further illustrating the double glazing of the band internal portioning layer of the present invention, spy carries out contrast experiment's explanation.

Figure 12 be double glazing cavity in survey tables of data for the contrast experiment of air, Figure 13 be double glazing cavity in survey tables of data for the contrast experiment of argon.In figs. 12 and 13, C represents the first clear glass, and A represents air layer, and C ' represents lamina septum pellucidum, and C ' ' represents the second clear glass, and A ' represents argon gas blanketing；U value represents heat transfer coefficient, and SC shading coefficient, SHGC represents solar heat gain coefficient (SHGC)；Explain as a example by sample 6 by sample 2；The structure that 6C+12A+6C ' ' represents be the thickness of the first clear glass be 6mm, the thickness of air layer is 12mm, the thickness of the second clear glass be 6mm, U value be about 2.8 W/M²•K；6C+5.3A+2C’+5.3A+6C’’ The thickness that structure is the first clear glass represented is 6mm, and the thickness of the air layer in the first cavity is 5.3mm, and the thickness of lamina septum pellucidum is 2mm, and the thickness of the air layer in the second cavity is 5.3mm, and the thickness of the second clear glass is that 6mm, U value is about 2.3 W/M²•K.It can be seen that the hollow glass structure of the embodiment of the present invention has relatively low heat transfer coefficient, therefore there is preferable heat-proof quality.

In sum, the double glazing of the band internal portioning layer of the present invention by increasing interlayer, available more preferable heat-proof quality, lower heat transfer coefficient (U value), the preferably ability of obstruct noise, mainly show as following some:

1: reduce the heat transfer coefficient of double glazing；

2: by the air-pressure balancing device of double glazing internal portioning layer twice, the deformation reducing interlayer and causing because twice gas expansion is uneven or breakage；Owing to the annular seal space outside air temperature on double glazing internal portioning layer both sides often differs greatly, therefore the air pressure being easily caused interlayer both sides is uneven, if do not processed, interlayer deformation effect door and window outward appearance can be caused, even rupture, the air pressure balance of both sides is reached by reserved on lamina septum pellucidum one or several breeder tube, simultaneously because pore is less, relatively small by the heat transfer of this pore；Or by the cavity of gas valve connection lamina septum pellucidum both sides, when air pressure imbalance, gas valve is opened, it is allowed to gas flows to regulate air pressure balance, and after balance, gas valve is closed；

3: intercepted sonic propagation of making an uproar, obtain a peacefuler indoor environment；Under same hollow glass component depth information, in double glazing, increase lamina septum pellucidum, the incoming of noise can be effectively reduced, also can reduce the incoming of noise further by adjusting the modes of emplacement of double glazing internal portioning layer simultaneously.

4: structure is uncomplicated, the course of processing is simple, and manufacturing cost is relatively low.

The above, it it is only presently preferred embodiments of the present invention, not the present invention is made any pro forma restriction, although the present invention is disclosed above with preferred embodiment, but it is not limited to the present invention, any those skilled in the art, in the range of without departing from technical solution of the present invention, when the technology contents of available the disclosure above makes a little change or is modified to the Equivalent embodiments of equivalent variations, in every case it is without departing from technical solution of the present invention content, any simple modification above example made according to the technical spirit of the present invention, equivalent variations and modification, all still fall within the range of technical solution of the present invention.

Claims (18)

1. a double glazing for band internal portioning layer, it includes the first clear glass and the second clear glass, it is characterised in that: the double glazing of this band internal portioning layer also includes lamina septum pellucidum, and this lamina septum pellucidum is between this first clear glass and this second clear glass；Between this lamina septum pellucidum and this first clear glass and this second clear glass, further respectively having spacer bar, so that forming the first cavity between this lamina septum pellucidum and this first clear glass, between this lamina septum pellucidum and this second clear glass, forming the second cavity；It is provided with fluid sealant in the junction of this spacer bar surrounding.

The double glazing of band internal portioning layer the most according to claim 1, is characterized in that: this first clear glass or this second clear glass are coated glass, and its thickness is 1mm ~ 25mm.

The double glazing of band internal portioning layer the most according to claim 1, is characterized in that: this lamina septum pellucidum is organic film, organic plastics, lucite or glass, and its thickness is 0.1 μm ~ 25mm.

The double glazing of band internal portioning layer the most according to claim 1, is characterized in that: this spacer bar is aluminum spacer bar or warm limit spacer bar, and its width is 6mm-30mm.

The double glazing of band internal portioning layer the most according to claim 1, is characterized in that: have groove in this spacer bar, and the end face of this lamina septum pellucidum is positioned at this groove.

The double glazing of band internal portioning layer the most according to claim 1, it is characterized in that: at the two ends of this lamina septum pellucidum, the thickness of this spacer bar between this lamina septum pellucidum with this first clear glass and between this lamina septum pellucidum and this second clear glass is identical so that this first cavity and this second cavity vertical direction cross section be shaped as rectangle.

The double glazing of band internal portioning layer the most according to claim 6, is characterized in that: be formed around this spacer bar at this lamina septum pellucidum.

The double glazing of band internal portioning layer the most according to claim 1, it is characterized in that: this lamina septum pellucidum has the first end and second end relative with this first end, distance between this first end and this first clear glass is less than the spacing of this first end with this second clear glass, and the distance between this second end and this first clear glass is more than the spacing of this second end with this second clear glass.

The double glazing of band internal portioning layer the most according to claim 8, is characterized in that: this first cavity is shaped as triangle with this second cavity vertical direction cross section.

The double glazing of band internal portioning layer the most according to claim 1, it is characterized in that: this lamina septum pellucidum is formed by the two-layer transparent sheet being spaced, being provided with spaced-apart elements between this two-layer transparent sheet, this spaced-apart elements is fixed on this spacer bar and direction in this first cavity and this second cavity extends.

The double glazing of 11. band internal portioning layers according to claim 1, is characterized in that: this lamina septum pellucidum is clamped by fixation clamp, and this fixation clamp is fixed on this spacer bar and direction in this first cavity and this second cavity extends.

The double glazing of 12. band internal portioning layers according to claim 1, is characterized in that: in this first cavity and this second cavity, near the position of this spacer bar, is additionally provided with spaced columns.

The double glazing of 13. band internal portioning layers according to claim 12, is characterized in that: be formed around spaced columns in this transparent spacers.

The double glazing of 14. band internal portioning layers according to claim 1, is characterized in that: be also formed with hole in this transparent spacers for connecting this first cavity and this second cavity.

The double glazing of 15. band internal portioning layers according to claim 14, is characterized in that: the diameter of this hole is less than or equal to 1dm.

The double glazing of 16. band internal portioning layers according to claim 1, is characterized in that: the double glazing of this band internal portioning layer is additionally provided with gas valve, and this gas valve is for controlling the connection of this first cavity and this second cavity.

The double glazing of 17. band internal portioning layers according to claim 16, is characterized in that: this gas valve is located in this transparent spacers.

The double glazing of 18. band internal portioning layers according to claim 16, is characterized in that: this gas valve is located on this spacer bar.