CN202540868U - Energy-saving protective glass - Google Patents

Abstract

The utility model relates to energy-saving protective glass. The energy-saving protective glass is provided with a first glass layer and a second glass layer; an enhancement layer and an insulating coating layer are arranged between the inner surfaces of the first glass layer and the second glass layer; and a combining layer is additionally arranged so as to combine all layer bodies. Therefore, the energy-saving protective glass provided by the utility model has the advantages that due to utilization of the design with the insulating coating layer uniformly coated on the inner surfaces of the glass layers and the enhancement layer clamped between the two glass layers, the manufacturing cost can be effectively reduced, and the manufacturing yield is increased so as to produce finished energy-saving protective glass products with good transmittance and high strength.

Description

Energy-conserving protection glass

Technical field

The utility model relates to a kind of energy-conserving protection glass, refers to a kind of low cost of manufacture, manufacture qualified rate height especially, and light transmittance and the good energy-conserving protection glass finished product of intensity.

Background technology

Glass outer wall is if meeting high wind blows or foreign object strike, and is often promptly chipping easily, influences people's safety; Therefore, can use tempered glass selecting for use of glass, tempered glass mainly is to be formed through heat treatment by annealed glass; It uses to be gone up and to be difficult for producing cracked, if its fragment is less and rounded when cracked, is difficult for making us injured; And tempered glass has the high light transmittance of general glass, and sunlight can directly be worn via tempered glass and inject indoorly, becomes scorching to such an extent as to the heat radiation of sunlight tends to make indoor temperature to improve; More increase the load of room conditioning, caused the consumption of the energy, also therefore; Buildings in general can be sticked sheathing paper to isolate the solar light irradiation thermal source on tempered glass, reduce radiations heat energy and penetrate in the glass inlet chamber.

Yet, can reach the expection effect of heat insulation though on tempered glass, attach sheathing paper,, reality finds that the tempered glass of this sheathing paper that is sticked has following many disappearances on using:

1, the sheathing paper that this tempered glass was sticked needs to use the plant equipment of huge costliness on making; And manufacture process is complicated; Also need drop into a large amount of human and material resources; To such an extent as to sheathing paper is on the high side, when causing the glass dealer to manufacture the tempered glass of tool heat insulating function, on cost, has great burden.

2, this sheathing paper is to attach between two blocks of tempered glasses; Very be difficult in its manufacturing process making it smooth, there is the generation of fold, bubble in regular meeting, causes to make and goes up sizable inconvenience; And significantly influencing the light transmittance and the aesthetic property of glass, the construction yield of finished product is low.

3, this tempered glass mainly is to be formed through heat treatment by annealed glass, and its manufacturing process is loaded down with trivial details, so cost of manufacture and price are higher, adds the sheathing paper cost, and therefore, existing price with tempered glass of heat insulating function remains high, and influences its industrial competitiveness.

The utility model content

The utility model is relevant for a kind of energy-conserving protection glass, and its main purpose is in order to provide a kind of low cost of manufacture, manufacture qualified rate high, and light transmittance and the good energy-conserving protection glass finished product of intensity.

In order to reach above-mentioned enforcement purpose; The utility model proposes a kind of energy-conserving protection glass, and this energy-conserving protection glass is provided with first glassy layer and second glassy layer, and between first glassy layer and the second glassy layer inner face, is provided with strengthening layer and insulating moulding coating layer; And be provided with binder course, to combine its each layer body.

In above-mentioned energy-conserving protection glass; Preferably; Said insulating moulding coating layer is to coat the second glassy layer inner face, and combines group to establish with the one side of strengthening layer with binder course, makes again between another side that strengthening layer establishes with respect to insulating moulding coating layer group and the first glassy layer inner face to combine with binder course.

In above-mentioned energy-conserving protection glass; Preferably; Said insulating moulding coating layer is to coat the first glassy layer inner face, and combines group to establish with the one side of strengthening layer with binder course, makes again between another side that strengthening layer establishes with respect to insulating moulding coating layer group and the second glassy layer inner face to combine with binder course.

In above-mentioned energy-conserving protection glass; Preferably; Said insulating moulding coating layer is an one side of coating strengthening layer, and with the first glassy layer inner face between combine group to establish with binder course, strengthening layer is combined with binder course with respect between the another side of coating insulating moulding coating layer and the second glassy layer inner face.

In above-mentioned energy-conserving protection glass; Preferably; Said insulating moulding coating layer is an one side of coating strengthening layer, and with the second glassy layer inner face between combine group to establish with binder course, strengthening layer is combined with binder course with respect between the another side of coating insulating moulding coating layer and the first glassy layer inner face.

In above-mentioned energy-conserving protection glass, preferably, said strengthening layer is Merlon (PC) layer.

In above-mentioned energy-conserving protection glass, preferably, said insulating moulding coating layer is nanometer tungsten oxide (CWO) layer.

In above-mentioned energy-conserving protection glass, preferably, said insulating moulding coating layer is Nanometer-sized Antimony Doped Tin (ATO) layer.

In above-mentioned energy-conserving protection glass, preferably, said insulating moulding coating layer is nanometer lanthanum hexaboride (LaB6) layer.

In above-mentioned energy-conserving protection glass, preferably, said insulating moulding coating layer is the nanometer carbon black layer.

The energy-conserving protection glass utilization of the utility model can evenly be coated with the insulating moulding coating layer that is laid in the glassy layer inner face and be located in the strengthening layer design between two glassy layers; Can effectively reduce manufacturing cost; The yield of making be can promote again, good transparency and high-intensity energy-conserving protection glass finished product provided with production.

The energy-conserving protection glass of the utility model; Its Design on thermal insulation; It mainly is the insulating moulding coating layer that has heat insulation effect with formation through the coating insulating moulding coating; The price of this insulating moulding coating is cheaply many compared to the sheathing paper of costliness, so the cost of manufacture of the energy-conserving protection glass that can significantly alleviate the utility model on heat insulation, power saving function.In addition; The energy-conserving protection glass of the utility model; The design of its any enhanced protection then mainly is to be made up of collocation one strengthening layer between two simple glasses, and is reaching the protection effect that prevents that effectively glass fragmentation faced from hurting sb.'s feelings, more cheap and production is more quick compared to loaded down with trivial details heat treated tempered glass cost on making; Improve output therefrom, reduce whole cost and price, the real benefit of the industrial competitiveness of the energy-conserving protection glass that provides with effective lifting the utility model.

Description of drawings

The cutaway view of the energy-conserving protection glass that Fig. 1 provides for embodiment 1;

The cutaway view of the energy-conserving protection glass that Fig. 2 provides for embodiment 2;

The cutaway view of the energy-conserving protection glass that Fig. 3 provides for embodiment 3;

The cutaway view of the energy-conserving protection glass that Fig. 4 provides for embodiment 4.

The primary clustering symbol description:

1 first glassy layer

2 strengthening layers

21 first

22 second

3 binder courses

4 second glassy layers

5 insulating moulding coating layers

The specific embodiment

And be to make technological means of the utility model and the effect that can reach thereof, can have more complete and clearly exposure, specify as follows now, please consult the graphic and figure number of exposure in the lump.

In following embodiment 1 to 4; The energy-conserving protection glass that the utility model provides, it is provided with first glassy layer and second glassy layer, and between first glassy layer and the second glassy layer inner face, is provided with strengthening layer and insulating moulding coating layer; Other is provided with binder course, to combine its each layer body.Wherein, this strengthening layer can be Merlon (PC) layer; This binder course can be polyvinyl butyral resin (PVB) layer or ethylene vinyl acetate (EVA) layer; This insulating moulding coating layer is nanometer tungsten oxide (CWO) layer, Nanometer-sized Antimony Doped Tin (ATO) layer, nanometer lanthanum hexaboride (LaB6) layer or nanometer carbon black layer.

Embodiment 1

See also shown in Figure 1; Be the embodiment of the energy-conserving protection glass of the utility model, this energy-conserving protection glass mainly is provided with first glassy layer 1, and is provided with strengthening layer 2 in this first glassy layer, 1 inner face; And first 21 in first glassy layer 1 and strengthening layer 2 are provided with binder course 3; So that first glassy layer 1 and strengthening layer 2 combination groups are established, other is provided with second glassy layer 4, and makes this second glassy layer, 4 inner faces coating insulating moulding coating layer 5; Make second 22 of this insulating moulding coating layer 5 and strengthening layer 2 to be provided with binder course 3 again, to combine group to establish with strengthening layer 2 on insulating moulding coating layer 5.

In view of the above, when using enforcement, please consult shown in Figure 1 in the lump; Can the energy-conserving protection glass of the utility model be installed in lightweight steel or aluminium frame of building etc., go out the window or the exterior wall of building, the visual field of building is significantly expanded with construction; And sunlight can evenly be spilt be distributed in indoor in, improve indoor daylighting effect, build a kind of bright modern sense; And throw when indoor by the energy-conserving protection glass of the utility model when sunlight, the insulating moulding coating layer 5 that is coated with in the energy-conserving protection glass through the utility model just can be with most solar thermal energy reflection; Penetrate into indoor effect significantly to intercept solar thermal energy through the energy-conserving protection glass of the utility model; So, just can effectively avoid solar radiation heat energy to penetrate the situation in the energy-conserving protection glass inlet chamber of the utility model, so that indoor temperature can remain under the suitable comfortable temperature; And then alleviate the air-conditioning load of regulating indoor temperature, with the concrete saving energy.In addition; Because the energy-conserving protection glass of the utility model is to combine strengthening layer 2 at first glassy layer 1 and second glassy layer 4; When first glassy layer 1 or second glassy layer 4 is blown by high wind or foreign object strike when cracked; This strengthening layer 2 can stick together cracked glass fragment, to reach the protection effect that prevents that glass fragment from hurting sb.'s feelings really.

Because the energy-conserving protection glass of the utility model is the layer body that goes out to have heat insulation effect through the coating insulating moulding coating with construction implementing to make; Because be the mode of adopting coating; So insulating moulding coating can evenly be laid in second glassy layer, 4 inner faces; Can in technology, not produce sheathing paper easy fold, bubble and generation deterioration etc. of forming when being attached on glass and influence glass transmission and aesthetic property situation; And the insulating moulding coating low price can effectively alleviate the cost of energy-conserving protection glass in heat insulation making that the utility model provides.In addition; The energy-conserving protection glass that the utility model provides collocation one Merlon (PC) strengthening layer 2 between need only be with two simple glasses in the making of strengthening can reach the protection effect that prevents that effectively glass fragmentation faced from hurting sb.'s feelings, and it is made, and to go up the existing tempered glass cost of processing through loaded down with trivial details heat treatment more cheap; Therefore; The tempered glass of the energy-conserving protection glass of the utility model all existing tool heat insulating function in the making design of heat insulation and safeguard function is cheaply many, and on light transmittance and aesthetic property, the tempered glass of existing tool heat insulating function is high-quality more; In view of the above, can significantly promote the industrial competitiveness of the energy-conserving protection glass of the utility model.

Embodiment 2

See also shown in Figure 2; Embodiment for the energy-conserving protection glass of the utility model; This energy-conserving protection glass is to make insulating moulding coating layer 5 coat first glassy layer, 1 inner face; Combine through binder course 3 first 21 again, make second 22 of strengthening layer 2 combine group to establish with binder course 3 again with second glassy layer, 4 inner faces with strengthening layer 2.

Embodiment 3

See also shown in Figure 3; Embodiment for the energy-conserving protection glass of the utility model; This energy-conserving protection glass is to make insulating moulding coating layer 5 coat first 21 of strengthening layer 2; Make again between insulating moulding coating layer 5 and first glassy layer, 1 inner face to combine group to establish with binder course 3, other make second 22 of strengthening layer 2 with second glassy layer, 4 inner faces between combine with binder course 3.

Embodiment 4

See also shown in Figure 4; Embodiment for the energy-conserving protection glass of the utility model; This energy-conserving protection glass is to make insulating moulding coating layer 5 coat second 22 of strengthening layer 2; Combine group to establish with binder course 3 again with between second glassy layer, 4 inner faces, and first 21 of strengthening layer 2 combined with binder course 3 with first glassy layer, 1 inner face.

The embodiment of aforesaid embodiment and graphic and non-limiting the utility model, suitable variation or modification that any one of ordinary skill in the art carried out all should be regarded as not breaking away from the protection domain of the utility model.

Can know by said structure and embodiment, the utlity model has following advantage:

1, the energy-conserving protection glass of the utility model is the insulating moulding coating layer that utilizes the coating insulating moulding coating to have heat insulation effect with shaping; Owing to be the mode of utilizing coating; So insulating moulding coating can evenly be laid in the glassy layer inner face; Can in technology, not produce the situation that fold or bubble etc. influence light transmittance and aesthetic property, the construction yield of finished product is high.

2, the energy-conserving protection glass of the utility model; Its Design on thermal insulation; Mainly be that the price of this insulating moulding coating is compared expensive cheaply many in sheathing paper through the coating insulating moulding coating insulating moulding coating layer that has heat insulation effect with shaping, so can significantly alleviate the cost of manufacture on heat insulation, power saving function.

3, the energy-conserving protection glass of the utility model; Its any enhanced protection design; Mainly be to be made up of collocation one strengthening layer between two simple glasses, reaching the protection effect that prevents that effectively glass fragmentation faced from hurting sb.'s feelings, more loaded down with trivial details heat treated tempered glass cost is more cheap and production is more quick on making; So can promote the whole cost and the price of output and reduction energy-conserving protection glass, with effective lifting industrial competitiveness.

Claims (10)

1. an energy-conserving protection glass is characterized in that, this energy-conserving protection glass is provided with first glassy layer and second glassy layer, and between first glassy layer and the second glassy layer inner face, is provided with strengthening layer and insulating moulding coating layer, and other is provided with binder course, to combine its each layer body.

2. energy-conserving protection glass as claimed in claim 1; It is characterized in that; Said insulating moulding coating layer is to coat the second glassy layer inner face; And combine group to establish with binder course with the one side of strengthening layer, make again between another side that strengthening layer establishes with respect to insulating moulding coating layer group and the first glassy layer inner face to combine with binder course.

3. energy-conserving protection glass as claimed in claim 1; It is characterized in that; Said insulating moulding coating layer is to coat the first glassy layer inner face; And combine group to establish with binder course with the one side of strengthening layer, make again between another side that strengthening layer establishes with respect to insulating moulding coating layer group and the second glassy layer inner face to combine with binder course.

4. energy-conserving protection glass as claimed in claim 1; It is characterized in that; Said insulating moulding coating layer is an one side of coating strengthening layer; And combining group to establish with binder course with the first glassy layer inner face, the another side that makes strengthening layer be coated with the insulating moulding coating layer relatively again combines with binder course with the second glassy layer inner face.

5. energy-conserving protection glass as claimed in claim 1; It is characterized in that; Said insulating moulding coating layer is an one side of coating strengthening layer; And combining group to establish with binder course with the second glassy layer inner face, the another side that makes strengthening layer be coated with the insulating moulding coating layer relatively again combines with binder course with the first glassy layer inner face.

6. energy-conserving protection glass as claimed in claim 1 is characterized in that, said strengthening layer is a layer of polycarbonate.

7. energy-conserving protection glass as claimed in claim 1 is characterized in that, said insulating moulding coating layer is nano oxidized tungsten layer.

8. energy-conserving protection glass as claimed in claim 1 is characterized in that, said insulating moulding coating layer is the Nanometer-sized Antimony Doped Tin layer.

9. energy-conserving protection glass as claimed in claim 1 is characterized in that, said insulating moulding coating layer is a nanometer lanthanum hexaboride layer.

10. energy-conserving protection glass as claimed in claim 1 is characterized in that, said insulating moulding coating layer is the nanometer carbon black layer.

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